KR102517411B1 - Prestressed soldier piles for displacement control and it's application to construction method for self-supporting temporary earth retaining walls - Google Patents

Abstract

In the present invention, in order to reduce the bending stress generated in the self-supporting retaining wall, a tension force is applied to the steel rod or steel wire installed on the thumb pile in advance, and a displacement control unit is installed at the lower part spaced from the upper end of the thumb pile to increase stiffness. The purpose is to provide a prestressed thumb pile for displacement control that effectively suppresses the bending moment and horizontal displacement generated by back earth pressure and a self-supporting temporary earth retaining construction method using the same.
The prestressed thumb pile for displacement control according to the present invention for achieving the above object 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; a tension member vertically fixedly installed between the brackets; It is characterized in that it consists of a displacement control unit fixed to a predetermined position of the thumb pile (100).
In addition, the self-supporting temporary earth retaining construction method using the prestressed pile for displacement control according to the present invention for achieving the above object comprises the steps of manufacturing a prestressed pile for displacement control (S 1); Forming a drilling hole by drilling the ground to a predetermined diameter and depth into which the prestressed thumb pile for displacement control is to be inserted (S2); Driving a prestressed thumb pile for displacement control into the drilling hole (S3); Filling sand into the prestressed pile for displacement control driven into the drilling hole (S4); Tensioning the tension member of the prestressed pile for displacement control (S5); It is characterized in that it consists of a step (S6) of tensioning the PC steel in the displacement control unit of the prestressed thumb pile for displacement control.

Description

Prestressed soldier piles for displacement control and it's application to construction method for self-supporting temporary earth retaining walls}

The present invention relates to a prestressed thumb pile for displacement control and a self-supporting temporary earth retaining construction method using the same. In particular, a displacement control unit capable of converting horizontal tensile force into vertical tensile force is installed on a thumb pile made of an H beam, thereby providing a thumb pile during earth retaining facility construction. After constructing the wale, the displacement control unit installed on the thumb pile at the supporting part converts the horizontal tension into vertical tension, and when horizontal tension is generated at each excavation stage, the converted vertical tension is supported through the lower fixing end of the thumb pile or the vertical lower anchorage. For displacement control It relates to a prestressed thumb pile and a self-supporting temporary earth retaining construction method using the same.

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 problems described above, Patent Publication No. 2019-0036591 prestressed thumb pile and a self-supporting temporary earth retaining construction method using the same have been proposed.

The conventional prestressed thumb pile described above includes 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.

In addition, the self-supporting temporary earth retaining construction method using the conventional prestressed piles described above includes the steps of manufacturing prestressed piles (S 1); Forming a drilling hole by drilling a predetermined diameter and depth at regular intervals in the ground (S 2); driving a prestressed thumb pile into the drilling hole (S 3); Filling the driven prestressed pile with sand (S4); Tensioning the tension member installed on the prestressed 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 prestressed thumb pile.

The conventional prestressed thumb pile for displacement control and the self-supporting temporary earth retaining construction method using the same configured as described above are used when it is necessary to shorten the construction period by securing a working space, When it is difficult to support with a brace or anchor in a building or civil structure, Applicable to cases where anchor construction is difficult due to encroachment on private property or buried underground, cases where damage due to anchor construction is concerned, cases where work efficiency is significantly reduced due to struts, and other cases where shortening of the period and construction cost are required. There are advantages.

However, the conventional prestressed thumb pile for displacement control and the self-supporting temporary 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-described problems, and a displacement control unit capable of converting horizontal tension to vertical tension is installed on a thumb pile made of an H beam at an excavation depth where a support structure for each excavation step is required. After inserting the PC steel into the displacement control unit, fixing the PC steel with a lower fixing bracket, or inserting a thumb stake into the drilling hole if necessary, and then adding an additional drilling hole for fixing the PC steel anchorage near the drilling hole. And by grouting and fixing the PC steel to the bottom of the drilling hole, when a horizontal tensile force is generated at an excavation depth that requires a support, the horizontal tensile force is applied to the lower fixing end of the PC steel of the displacement control unit through a displacement control unit built in advance in the thumb pile. The purpose is to provide a prestressed thumb pile for displacement control and a self-supporting temporary earth retaining construction method using the same so that the required bearing capacity can be secured at the required excavation depth.

The prestressed thumb pile for displacement control according to the present invention for achieving the above object 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; a tension member vertically fixedly installed between the brackets; It is characterized in that it consists of a displacement control unit fixed to a predetermined position of the thumb pile (100).

In addition, the self-supporting temporary earth retaining construction method using the prestressed pile for displacement control according to the present invention for achieving the above object comprises the steps of manufacturing a prestressed pile for displacement control (S 1); Forming a drilling hole by drilling the ground to a predetermined diameter and depth into which the prestressed thumb pile for displacement control is to be inserted (S2); Driving a prestressed thumb pile for displacement control into the drilling hole (S3); Filling sand into the prestressed pile for displacement control driven into the drilling hole (S4); Tensioning the tension member of the prestressed pile for displacement control (S5); It is characterized in that it consists of a step (S6) of tensioning the PC steel in the displacement control unit of the prestressed thumb pile for displacement control.

As described above, the prestressed thumb pile for displacement control and the self-supporting temporary earth retaining construction method using the same according to the present invention can convert the horizontal tensile force to the vertical tensile force in the thumb pile made of H beams at the excavation depth that requires a support structure for each excavation stage. After inserting the PC steel material into the displacement control part, fix the PC steel material with a lower fixing bracket, or, if necessary, insert the thumb stake into the drilling hole and fix the PC steel material anchorage near the drilling hole. By forming an additional drilling hole for the drilling hole and fixing the PC steel material to the bottom of the drilling hole by grouting, when a horizontal tensile force is generated at the excavation depth required for support, the horizontal tensile force is applied to the PC of the displacement control unit through the displacement control unit built in advance in the thumb pile. Steel materials are settled at the lower anchoring end, and it is possible to secure the required bearing capacity at the excavation depth where support is required, thereby enabling an earth retaining structure without a separate support member.

1 is a perspective view showing a prestressed pile for displacement control according to the present invention;
2 is a front view showing a prestressed pile for displacement control according to the present invention;
3 is a plan view showing a prestressed pile for displacement control according to the present invention;
4 is a perspective view showing a state in which a prestressed thumb pile for displacement control according to the present invention is installed;
5 is a perspective view showing a displacement control unit of a prestressed thumb pile for displacement control according to the present invention;
6 is a front view showing the displacement control unit of the prestressed pile for displacement control according to the present invention;
7 is a cross-sectional view showing a displacement control unit of a prestressed thumb pile for displacement control according to the present invention;
8 is an exemplary diagram 1 showing a state in which a displacement control unit is installed in a prestressed pile for displacement control according to the present invention;
9 is an exemplary view 2 showing a state in which a displacement control unit is installed in a prestressed thumb pile for displacement control according to the present invention;
Figure 10 is an exemplary view showing a state in which the displacement control unit is installed in the prestressed pile for displacement control according to the present invention 3.

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

1 is a perspective view showing a prestressed pile for displacement control according to the present invention, Figure 2 is a front view showing a prestressed pile for displacement control according to the present invention, Figure 3 shows a prestressed pile for displacement control according to the present invention It is a flat view.

As shown in these figures, the prestressed thumb pile (P) for displacement control according to the present invention installs the bracket 200 on the thumb pile 100 to reduce the bending stress generated in the self-supporting retaining wall, and the bracket ( 200), after installing the human member 300, applying a tension force to the tension member 300 in advance, and installing the displacement control unit 400 on the thumb pile 100 to increase the stiffness by back earth pressure The displacement control unit 400 installed in the thumb pile 100 converts the generated bending moment and horizontal displacement into vertical tension by converting the horizontal tension into vertical tension, so that the converted vertical tension is converted to the lower fixed end of the thumb pile 100 or the vertical As a structure to be supported through the lower fixing part, a thumb pile 100 made of an H beam having a certain length; A bracket 200 that is bolted to face each other at a predetermined position of the thumb pile 100; a tension member 300 vertically fixed between the brackets 200; It consists of a displacement control unit 400 fixed to a predetermined position of the thumb pile 100.

That is, the prestressed thumb pile (P) for displacement control according to the present invention is a structure in which the thumb pile 100, the bracket 200, the tension member 300 and the displacement control unit 400 are organically combined.

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

In addition, 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) are installed to face each other on the thumb pile (100) in the same shape.

In particular, the upper bracket (200a) and the lower bracket (200b) include a horizontal plate 210 formed in a rectangular shape having a certain thickness and width; a vertical plate 220 bent at a right angle from an end of the horizontal plate 210 and having an arc-shaped upper part; an inclined plate 230 disposed obliquely between the horizontal plate 210 and the vertical plate 220 and having a triangular shape; It consists of a plurality of anchoring holes 240 formed in the vertical plate 220 to have a constant diameter.

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 are members in which the horizontal plate 210, the vertical plate 220, the inclined plate 230, and the anchoring hole 240 are organically coupled.

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 vertical plate 220 of the upper bracket 200a is installed in line with the uppermost end of the thumb pile 100 on the same horizontal line.

In addition, the lower bracket 200b is installed on the thumb peg 100 while maintaining a certain distance vertically downward from the upper bracket 200a.

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

Also, it should be noted that the tension member 300 may be formed of a high-strength structural steel rod or steel wire.

On the other hand, as shown in FIGS. 5 to 7, the displacement control unit 400 includes a sheath pipe 410 formed by bending the center of a pipe having a predetermined diameter and length with a predetermined curvature; PC steel 420 embedded in the sheath pipe 410; A fixing plate 430 for fixing the sheath tube 410 to the outer circumferential surface of the thumb pile 100; an upper fixing hole 440 fixed to the outside of the fixing plate 430; It consists of a lower fixing bracket 450 for fixing the PC steel 420 to the lower part of the thumb pile 100.

That is, the displacement control unit 400 is a structure formed by organically combining the sheath tube 410, the PC steel 420, the fixing plate 430, the upper fixing hole 440, and the lower fixing bracket 450.

Here, the sheath pipe 410 is a member formed by bending the center of a pipe having a predetermined diameter and length with a predetermined curvature, and a constant curvature in the horizontal and vertical straight section of the pipe and the bent portion over the horizontal and vertical section It consists of a curved section with

In particular, it is revealed that at least one sheath tube 410 is used according to the tension of the PC steel material 420 according to the horizontal displacement.

In addition, the PC steel material 420 is a steel material inserted into the sheath pipe 410 to give prestress to convert the horizontal tensile force according to the displacement of the thumb pile 100 into vertical tensile force.

In principle, one PC steel material 420 is used in one sheath pipe 410, and if necessary, when a plurality of sheath pipes 410 are installed on the thumb pile 100, the plurality of sheath pipes 410 It is revealed that each PC steel material 420 can be inserted and used.

Here, the PC steel material 420 includes various PC steel wires, PC steel strands, PC hard steel wires, PC steel bars, and the like, and strands (strand wires) of wires and strands have circular cross sections and heterogeneous ones.

Types of release include a deformed wire type with projections protruding from the surface, an indented wire type with a hollow part attached, and a crimp wire type with curved lines attached to the wire itself.

PC hard steel wire has a diameter of 9 mm or less and is particularly used for prestressed concrete tanks, pipes and poles.

The PC steel stranded wire is also referred to as a strand, and is a twisted PC steel wire.

The PC steel bar is a steel bar with a diameter of 9.2 mm or more, and the cross section is circular and deformed, and the total is divided into 9 types.

Make a rolling screw at both ends and fix it with a nut.

A cable is a collection of PC steel wires.

In addition, the fixing plate 430 is a member for fixing the sheath tube 410 to the outer circumferential surface of the thumb pile 100.

In addition, an upper anchorage 440 and a lower fixing bracket 450 are installed at the horizontal end and the vertical end of the sheath pipe 410, and the PC steel material 420 is attached to the upper anchorage 440 and the lower fixing bracket 450. configured to settle in.

The prestressed thumb pile for displacement control according to the present invention having the configuration as described above is at least one or more to convert the horizontal tensile force to the vertical tensile force in the thumb pile 100 made of an H beam at an excavation depth that requires a support structure for each excavation step. is installed, after inserting the PC steel material 420 into the sheath pipe 410 of the displacement control unit 400, the PC steel material 420 is fixedly installed with the fixing plate and the lower fixing bracket 450, or if necessary After inserting the thumb pile 100 into the drilling hole (H), an additional drilling hole for fixing the anchorage of the PC steel material 420 is formed near the drilling hole (H), and the PC steel material ( 420) by grouting, when the horizontal tensile force is generated at the excavation depth where support is required, the PC steel material 420 of the displacement control unit 400 moves the horizontal tensile force through the displacement control unit 400 built into the thumb pile 100. It is settled at the fixing end of the fixed bracket, and it has the effect of securing the required support capacity at the excavation depth where support is required.

Hereinafter, a self-supporting temporary earth retaining construction using the prestressed thumb pile for displacement control according to the present invention having the configuration as described above will be described.

4 is an exemplary view showing a state in which the prestressed pile for displacement control according to the present invention is installed in the ground.

8 to 10 are exemplary views showing a state in which the displacement control unit is installed in the prestressed pile for displacement control according to the present invention.

As shown in these figures, the self-supporting temporary earth retaining construction method using the prestressed pile for displacement control according to the present invention comprises the steps of manufacturing a prestressed pile (P) for displacement control (S 1); Forming a drilling hole (H) by drilling the ground (G) to a predetermined diameter and depth to embed the prestressed thumb pile (P) for displacement control (S 2); Driving a prestressed thumb pile (P) for displacement control into the drilling hole (H) (S 3); Filling the prestressed pile (P) for displacement control driven into the drilling hole (H) with sand (S 4); Tensing the tension member 300 of the prestressed pile (P) for displacement control (S5); It consists of a step (S6) of tensioning the PC steel material 420 in the displacement control unit 400 of the prestressed thumb pile for displacement control (P).

That is, the self-supporting temporary earth retaining construction method using the prestressed thumb pile for displacement control 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 at a predetermined position of the thumb pile 100; a tension member 300 vertically fixed between the brackets 200; It consists of a displacement control unit 400 fixedly installed at a predetermined position of the thumb pile 100, 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 a rectangular shape having a constant thickness and width; a vertical plate 220 bent at a right angle from an end of the horizontal plate 210 and having an arc-shaped upper part; an inclined plate 230 disposed obliquely between the horizontal plate 210 and the vertical plate 220 and having a triangular shape; It consists of a plurality of anchoring holes 240 perforated to have a certain diameter in the vertical plate 220, and the displacement control unit 400 is a sheath tube formed by bending the center of a pipe having a predetermined diameter and length with a predetermined curvature (410) and; PC steel 420 embedded in the sheath pipe 410; A fixing plate 430 for fixing the sheath tube 410 to the outer circumferential surface of the thumb pile 100; an upper fixing hole 440 fixed to the outside of the fixing plate 430; It consists of a lower fixing bracket 450 for fixing the PC steel 420 to the lower part of the thumb pile 100, 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, and the tension member 300 is made of a high-strength structural steel bar or steel wire, and a prestressed thumb pile (P) for displacement control is manufactured, and the prestressed thumb pile (P) for displacement control is installed. After drilling the target ground (G) with a predetermined diameter and depth at regular intervals to form a drilling hole (H), driving a prestressed thumb pile (P) for displacement control into the drilling hole (H), After filling the driven prestressed pile (P) for displacement control with sand, and after tensioning the tension member 300 installed on the pile (100) with a predetermined force, the prestressed pile (P) for displacement control The PC steel material 420 is tensioned in the displacement control unit 400.

In the self-supporting temporary retaining construction method using the prestressed thumb pile for displacement control according to the present invention consisting of the steps described above, the bracket 200 is installed on the retaining pile 100, and the tension member 300 is installed on the bracket 200. Install, and install the displacement control unit 400 at the bottom of the thumb pile 100, but at the excavation depth required for the support structure for each excavation step, the tension member 300 and the horizontal tensile force are applied to the thumb pile 100 made of H beams vertically By installing the displacement control unit 400 that can be converted into tensile force, the excavation back earth pressure is borne by the tension member, and the displacement generated by the back earth pressure is borne by the displacement control unit installed on the thumb pile, so that the required bearing capacity at the excavation depth where support is required It is possible to secure an earth retaining structure without a separate support member, and by securing a wide working space, the efficiency of equipment work is shortened and the amount of steel used is reduced, thereby reducing construction costs and improving constructability. It works.

Preferred embodiments described in the specification 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 are included in the present invention. It will be.

100: thumb peg 200: bracket
200a: upper bracket 200b: lower bracket
210: horizontal plate 220: vertical plate
230: fixer 300: tension member
400: displacement control unit 410: sheath pipe
420: PC steel 430: Fixing plate
440: upper anchorage 450: lower fixing bracket
G: ground H: drilled hole
P: Prestressed pile for displacement control

Claims (7)

A thumb pile 100 made of an H beam having a certain length; A bracket 200 that is bolted to face each other at a predetermined position of the thumb pile 100; a tension member 300 vertically fixed between the brackets 200; It consists of a displacement control unit 400 fixedly installed at a predetermined position of the thumb pile 100, and the displacement control unit 400 is a sheath tube formed by bending the center of a pipe having a predetermined diameter and length with a predetermined curvature ( 410) and; PC steel 420 embedded in the sheath pipe 410; A fixing plate 430 for fixing the sheath tube 410 to the outer circumferential surface of the thumb pile 100; an upper fixing hole 440 fixed to the outside of the fixing plate 430; Prestressed thumb pile for displacement control, characterized in that it consists of a lower fixing bracket 450 for fixing the PC steel 420 to the lower part of the thumb pile 100. 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 include a horizontal plate 210 formed in a rectangular shape having a certain thickness and width, ; a vertical plate 220 bent at a right angle from an end of the horizontal plate 210 and having an arc-shaped upper part; an inclined plate 230 disposed obliquely between the horizontal plate 210 and the vertical plate 220 and having a triangular shape; Prestressed thumb pile for displacement control, characterized in that composed of a plurality of fixation holes 240 perforated to have a constant diameter in the vertical plate 220. delete A thumb pile 100 made of an H beam having a certain length; A bracket 200 that is bolted to face each other at a predetermined position of the thumb pile 100; a tension member 300 vertically fixed between the brackets 200; It consists of a displacement control unit 400 fixedly installed at a predetermined position of the thumb pile 100, and the displacement control unit 400 is a sheath tube formed by bending the center of a pipe having a predetermined diameter and length with a predetermined curvature ( 410) and; PC steel 420 embedded in the sheath pipe 410; A fixing plate 430 for fixing the sheath tube 410 to the outer circumferential surface of the thumb pile 100; an upper fixing hole 440 fixed to the outside of the fixing plate 430; As a self-supporting temporary earth retaining construction method using a prestressed thumb pile for displacement control composed of a lower fixing bracket 450 for fixing the PC steel material 420 to the lower part of the thumb pile 100,
Manufacturing a prestressed pile (P) for displacement control (S 1);
Forming a drilling hole (H) by drilling the ground (G) to a predetermined diameter and depth to embed the prestressed thumb pile (P) for displacement control (S 2);
Driving a prestressed thumb pile (P) for displacement control into the drilling hole (H) (S 3);
Filling the prestressed thumb pile 100 for displacement control driven into the drilling hole with sand (S 4);
Tensing the tension member 300 of the prestressed pile (P) for displacement control (S5);
Self-supporting temporary earth retaining using prestressed thumb piles for displacement control, characterized in that it consists of the step (S 6) of tensioning the PC steel material 420 horizontally or downward in the displacement control unit 400 of the prestressed thumb piles (P) for displacement control. construction method. delete According to claim 4,
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 include a horizontal plate 210 formed in a rectangular shape having a certain thickness and width, ; a vertical plate 220 bent at a right angle from an end of the horizontal plate 210 and having an arc-shaped upper part; an inclined plate 230 disposed obliquely between the horizontal plate 210 and the vertical plate 220 and having a triangular shape; A self-supporting temporary earth retaining construction method using a prestressed thumb pile for displacement control, characterized in that it consists of a plurality of fixation holes 240 perforated to have a constant diameter in the vertical plate 220. delete

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