KR20150120074A - Apparatus and method for penetrating pile - Google Patents

Abstract

The present invention relates to a pile pressing apparatus and a pile pressing method to fixate the pile pressing apparatus to a steel rod mounted on the ground and to move an oil jack forward when a pile is pressed in the ground. According to the present invention, the pile pressing apparatus includes: a plurality of anchor bolts having one end inserted and mounted into the ground around a position where the pile is to be inserted in order to press the pile into the ground; a plurality of steel rods coupled to the other end of the anchor bolt; a repulsive plate having a through-hole into which the rods are inserted to pass through; the oil jack coupled to a lower part of the repulsive plate; a pressing plate coupled to a lower part of the oil jack by pressing an upper end of the pile; and a rod fixture positioned at the through-hole on an upper part of the repulsive plate to allow the rods to be inserted and to selectively fixate the steel rods.

Description

[0001] APPARATUS AND METHOD FOR PENETRATING PILE [0002]

The present invention relates to a pile presser and a press-in pile method in which a pile presser is fixed to a steel bar fixed to the ground when the pile is pressed into the ground and the pile is advanced to the ground by advancing the oil jack.

The pile is used for the purpose of increasing the bearing capacity of the structure or restraining the settlement of the ground. The pile is classified into type pile, buried pile, and cast-in-place pile according to the construction method.

The double piercing pile is installed by inserting the pile of the piercing product into the piercing hole drilled in the ground in advance over the entire length of the pier, and it is widely used because of the advantage of less noise and vibration.

Fig. 1 shows a pile press-fitting device used in a press-in steel pipe piling method which is an example of a pile. The pile presser of FIG. 1 has a merit in that it can reduce the number of pile joints while introducing piles with no vibration or noiseless by using a special hydraulic jack, and can be easily utilized in the soft foundation or reinforcement of an existing building (Patent No. 10- 0792130).

However, the pile press apparatus of FIG. 1 inserts the steel pipe pile 5 through a circular hole formed by the four wedges 15 located at the center of the press plate 13. Therefore, when hydraulic pressure is applied to the forward hydraulic jack 24 while the wedge 15 holds the outer circumferential surface of the steel pipe pile 5 and the steel pipe pile 5 is press-fitted, the wedge 15 is pressed against the steel pipe pile 5 ) Side of the steel pipe pile 5 may be deformed due to squeezing of the steel pipe pile 5.

The deformation of the steel pipe pile causes uneven stress distribution due to pile damage, and it can act as a factor of the decrease of the strength.

The applicant of the present invention has found that by pressing the presser plate 50 against the upper surface of the pile 1 rather than the side surface of the pile 1 to press the pile 1 (Patent Application No. 10-2014-0025791), which is applied to a pile press-fitting device capable of preventing deformation of a pile (1).

This application technique does not cause damage to the pile 1, but requires four special oil jacks 40 for fixing the steel rods 20 respectively. Therefore, the number of the oil jacks 40 is large and the number of the hydraulic hoses is increased to eight, which may cause an interruption to the operation.

In addition, special care has been required to keep the forward or reverse speed of the four oil jacks 40 constant.

In order to solve the above-mentioned problems, the present invention provides a pile presser and a press-in pile method by which the number of oil jacks and the number of hydraulic hoses are reduced, so that a pile can be press-fitted into a simple equipment.

In addition, the present invention provides a pile presser and a press-in pile method which can be applied to a general oil jack.

In addition, the present invention provides a pile presser and a press-in pile method that can eliminate the inconvenience of equalizing the advancing speed of various oil jacks.

According to a preferred embodiment of the present invention, there is provided an anchor bolt, comprising: a plurality of anchor bolts, one end of which is fixedly inserted into a ground around a position where a pile is to be inserted to insert a pile into the ground; a steel rod coupled to the other end of the anchor bolt; A reaction plate coupled to the lower portion of the reaction plate, a press plate coupled to the lower portion of the oil jack to press the upper end of the pile and close to the ground, A wedge cone having a wedge hole formed in a center thereof so as to allow a steel rod to pass through the wedge hole; A wedge provided inside the wedge hole and gripping an outer circumferential surface of the steel rod; A railing provided at a lower portion of the wedge inside the wedge hole to push up the wedge; And a latch member coupled to the hatch to allow the hatch to move up and down; The pile press-fitting device according to claim 1,

According to another preferred embodiment of the present invention, the steel bar fastener is provided with a through-hole coupled to an upper portion of the wedge cone, the through-hole passing through a steel bar at an upper portion thereof and having a space portion in which the wedge is received, And an elastic member provided at an upper end of the wedge of the space portion to press the wedge; The pile press-in device according to claim 1, further comprising:

According to another preferred embodiment of the present invention, the latch member is coupled to the side of the entrance of the elevator, the side of the wedge cone below the wedge hole is provided with a vertical slot for guiding the latch member to move in the vertical direction, And a horizontal slot is formed to guide the latch member to move in a horizontal direction.

According to another preferred embodiment of the present invention, the elevation hole is formed with a cylindrical body having a through hole through which a steel bar penetrates at the center, and which moves the wedge upward; A flange portion having a first groove portion formed integrally with the outer circumferential surface of the body and having a second groove portion having a height lower than the height of the first groove portion at a position spaced apart from the first groove portion by a predetermined angle; And a cam member rotatably provided on a lower portion of the flange and having a projection formed on an upper surface thereof and having a shape corresponding to the shape of the first groove; Wherein the latch member is coupled to a side surface of the cam member and a horizontal slot is formed in a side surface of the wedge cone below the wedge hole to guide the latch member to move in a horizontal direction do.

According to another preferred embodiment of the present invention, at least one guide groove or guide protrusion is formed in the vertical direction on the outer side surface of the flange portion, and on the inner circumference of the lower portion of the wedge hole of the wedge cone, Or a groove is formed in the pit press-fitting device.

According to another preferred embodiment of the present invention, a thread is formed on the outer circumferential surface of the steel bar and a thread is formed on the inner circumferential surface of the wedge so as to engage with the thread of the steel bar.

According to another preferred embodiment of the present invention, the steel bar fastener is inserted into the through hole of the lid part so as to be slidable up and down, and is inserted into the center of the steel bar fastener in such a manner that a steel bar is inserted and the elastic member is coupled to the outside, And a pressing member which is formed integrally with the upper end of the wedge to press the upper end of the wedge.

According to another preferred embodiment of the present invention, the pile is inserted into the ground by press-fitting the pile, wherein (a) the pile press-in device is placed at a position where the pile is inserted, the pile is positioned at a position where the pile is inserted, Adhering to the top; (b) pushing the wedge into the wedge hole to fix the steel rod by positioning the lowering port by the latch member and moving the presser plate downward by applying oil pressure to the oil jack; (c) unlocking the steel bar by pushing the wedge upward from the wedge hole by moving the door upward by the latch member; (d) releasing the hydraulic pressure of the oil jack to move the steel bar fastener, the reaction plate and the oil jack down; And (e) repeating the steps (a) to (d) a predetermined number of times to close the pile to a predetermined depth; The present invention also provides a method of manufacturing an indentation pile.

The effects of the present invention are as follows.

First, the steel rods are fixed with the steel rod fasteners located at the top of the reaction force plate so that the oil jacks do not directly fix the steel rods or piles. Therefore, it is cheaper to use a common oil jack.

Second, it is possible to prevent the deformation of the pile by placing the oil jack, the press plate, and the pile on the bottom of the reaction plate one after another and pressing the pile on the top of the pile. In addition, by using one oil jack, the number of hydraulic hoses is greatly reduced, so there is no obstacle to work, the equipment is easy to use, and it is possible to eliminate the inconvenience of controlling the forward or backward speed of several oil jacks equally.

Third, the steel bar fastener is composed of a wedge and a wedge cone, and the elevation of the steel bar fastener is moved only by the operation of the latch member, so that the wedge can fix or release the steel bar. Therefore, it is possible to shorten the construction time because of easy use and operation.

1 is a view showing an embodiment of a conventional piercing device.
2 is a cross-sectional view showing another embodiment of a pile press-fitting apparatus incorporated in a conventional ground;
3 is a perspective view showing the pile press-fitting device of the present invention.
4 is an exploded perspective view showing the pile press-fitting device of the present invention.
5 is an exploded perspective view showing an embodiment of a steel bar fastener.
Fig. 6 is an exploded perspective view showing a steel bar fastener when the steel bar is fixed; Fig.
Fig. 7 is an exploded perspective view showing a steel bar fastener when the steel bar fixing is released; Fig.
8 is an exploded perspective view showing another embodiment of a steel bar fastener;
9 is an exploded perspective view showing an embodiment of a hatch;
10 is a perspective view showing an operating process of the hatch;
11 is a view showing a step-by-step process of the press-in pile method of the present invention.

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

FIG. 3 is a perspective view showing the pile press apparatus of the present invention, and FIG. 4 is an exploded perspective view showing the pile press apparatus of the present invention.

3 and 4, the pile press-fitting apparatus of the present invention is characterized in that one end is inserted into the ground 2 around the position where the pile 1 is to be inserted in order to insert the pile 1 into the ground 2 A reaction plate 30 having a plurality of anchor bolts 10 to be fixed thereto, a steel bar 20 coupled to the other end of the anchor bolt 10, a through hole 31 through which the plurality of steel bars 20 are inserted, An oil jack 40 coupled to the lower portion of the reaction plate 30 and a pressing plate 50 coupled to the lower portion of the oil jack 40 to press the upper end of the pile 1 and close to the ground 2, And a steel bar fixture 60 provided at a position of the through hole 31 above the plate 30 to selectively fasten the steel bar 20 by inserting the steel bar 20 therein.

A plurality of anchor bolts 10 are installed so that one end of the anchor bolt 10 is inserted into the surrounding ground 2 at a position where the pile 1 is to be inserted to insert the pile 1 into the ground 2. [

3 and 4, the anchor bolts 10 are positioned at equal intervals around the pile 1, and the anchor bolts 10 are positioned on the ground around the pile insertion hole into which the pile 1 is inserted 2).

The pile insertion hole can be formed by placing a steel pipe sleeve having a shear connector on the outer circumference of the concrete foundation at a position where the pile 1 is to be punched in the case of the expansion and contraction structure. A hole having a diameter slightly larger than that of the pile 1 can be formed by boring.

In the case of an existing structure, the anchor bolt 10 is formed by boring a hole for inserting the anchor bolt 10 into the concrete foundation, inserting one end of the anchor bolt 10 into the hole, .

The steel bar 20 is coupled to the other end of the anchor bolt 10 and can be coupled to the other end of the anchor bolt 10 exposed above the ground 2.

At this time, the anchor bolt 10 and the steel bar 20 can be combined with the threads formed on the outer circumferential surface of the anchor bolt 10 and the threads formed on one end of the steel bar 20 with the coupler 11 having the threads formed inside the both ends thereof .

The reaction plate 30 is formed with a through hole 31 through which a plurality of steel rods 20 are inserted. An oil jack 40 and a pressure plate 50 are coupled to the reaction plate 30 in order, A steel bar fixture (60) is positioned above the plate (30).

As shown in FIGS. 3 and 4, the upper half of the reaction plate 30 can be coupled to the upper half.

It is possible to easily install or remove the reaction plate 30 by using the both heavy equipment when disposing the reaction plate 30 after installing the reaction plate 30 or completing the filling of the pile 1 with the ground 2 do.

The oil jack 40 is located at the center of the lower portion of the reaction plate 30 so as not to interfere with the plurality of anchor bolts 10. The oil jack 40 may be bolted to the reaction plate 30. For this purpose, a predetermined coupling groove is formed at the upper end of the oil jack 40, and the reaction plate 30 is passed through the reaction plate 30 The bolt can be fastened to the coupling groove.

The presser plate 50 is also boltable with the oil jack 40. For this purpose, a predetermined engaging groove is formed at the lower end of the oil jack 40, and the presser plate 50 is inserted through the presser plate 50 from the lower portion of the presser plate 50, .

The steel bar fixture 60 is provided at the position of the through hole 31 in the upper part of the reaction plate 30 and the steel bar 20 is inserted into the inside thereof to selectively fix the steel bar 20.

Therefore, in the present invention, since the oil jack 40 selectively fixes the steel rods 20 with the steel rod fixture 60 without fixing the steel rods 20 or the piles 1, The pile 1 can be inserted into the oil jack 40, and a conventional oil jack 40 can be applied. Therefore, there is no need to pay attention to move the plurality of oil jacks 40 at the same moving speed, and the number of hydraulic hoses of the oil jack 40 is reduced compared to the related art, have.

The fixing and disassembling process of the steel bar 20 by the steel bar fastener 60 will be described later with reference to FIGS. 5 to 7 and the like.

A pile 1 is positioned below the press plate 50 and the press plate 50 presses the upper end of the pile 1 to insert the pile 1 into the ground 2.

That is, when pressure is applied to the oil jack 40 at the upper part to advance it, the pile 1 is inserted into the ground 2 by the upper pressure while pressing the pressure plate 50 downward.

4 and 11, the upper surface of the pressure plate 50 may have a groove corresponding to the lower end of the piston so that the lower end of the oil jack 40 can be inserted and coupled. The lower surface of the pressure plate 50 may form a predetermined protrusion so as to be insertable into the inner circumference of the steel pipe pile.

Fig. 5 is an exploded perspective view showing an embodiment of a steel bar fastener, Fig. 6 is an incision oblique view showing a steel bar fastener when the steel bar is fixed, and Fig. 7 is an exploded perspective view showing a steel bar fastener, to be.

5 to 7, the steel bar fixture 60 includes a wedge cone 61 having a wedge hole 611 formed in a center thereof so as to allow the steel bar 20 to pass therethrough; A wedge 62 provided inside the wedge hole 611 and holding the outer circumferential surface of the steel bar 20; A hatch 63 provided at a lower portion of the wedge 62 inside the wedge hole 611 of the wedge cone 61 so as to push up the wedge 62; And a latch member (64) coupled to the door (63) to move the door (63) up and down. .

The upper movement of the reaction plate 30 should be limited so that the reaction plate 30 moving along the steel bar 20 is positioned at a constant height when the pressing plate 50 presses the pile 1. [ For this purpose, it is possible to consider a method of fastening a nut or the like on the reaction force plate 30 to be coupled to the steel bar 20. In this case, since the length of the steel bar 20 is long, It can be troublesome.

Therefore, in the present invention, the steel bar fastener 60 is composed of the wedge 62 and the wedge cone 61 so that the steel bar fastener 60 can be easily fixed to the steel bar 20, and only by the operation of the latch member 64 So that the door 63 can be moved upward and the fixing by the wedge 62 can be released.

In other words, the steel bar fixture 60 allows the wedge 62 to selectively fix or release the steel bar 20 while moving the wedge 62 up and down by the operation of the latch member 64.

The construction of the steel bar fixture 60 is advantageous in that the fixing and releasing process of the steel bar 20 is simple and convenient and the construction time can be shortened.

5, the wedge 62 may be composed of a plurality of wedge pieces divided in the vertical direction. In Fig. 5, the wedge 62 is composed of four wedge pieces, but the number of the wedge pieces can be variously configured.

6 is an exploded perspective view showing the steel bar fastener 60 when the steel bar 20 is fixed. The wedge 62 is positioned by lowering the entrance 63 by the latch member 64, It is possible to fix the steel bar 20 by pressing it into the wedge hole 611.

That is, the wedge 62 divided into the plurality of wedge pieces slides into the wedge hole 611, and the gap between the divided wedge pieces is reduced, so that the steel rods 20 are firmly fixed. At this time, when oil pressure is applied to the oil jack 40 and the pressure plate 50 is moved downward, the pile 1 can be inserted into the ground 2.

Conversely, as shown in FIG. 7, when the door 63 is moved upward by the latch member 64, the wedge 62 is pushed upward from the wedge hole 611 and the fixing of the steel rod 20 is released. Then, the oil pressure of the oil jack 40 can be released to move the steel bar fastener 60, the reaction plate 30, and the oil jack 40.

In the present invention, the steel bar fastener 60 is coupled to the upper portion of the wedge cone 61 and has a through hole 651 through which the steel bar 20 passes, and the wedge 62 is received therein A lid portion 65 formed with a space portion 652; And an elastic member 66 provided at an upper end of the wedge 62 of the space 652 to press the wedge 62; May be further included.

The elastic member 66 presses the wedge 62 in the downward direction, that is, the direction in which the steel bar 20 is fixed. Therefore, when the oil jack 40 is advanced, the steel bar fastener 60 can be firmly fixed to the steel bar 20 without any external force.

The elastic member 66 may have various configurations such as a coil spring and a leaf spring.

The steel bar fastener 60 is inserted into the through hole 651 of the lid unit 65 so as to be slidable up and down in a cylindrical shape in which a steel bar 20 is inserted at the center and the elastic member 66 is coupled to the outside, And a pressing member 67 for pressing the upper end of the wedge 62 may be further provided on the lower outer side by forming a protrusion 671 integrally protruding therefrom.

The wedge 62 is divided into a plurality of wedge pieces in the vertical direction, and when the wedge 62 is pressed by the elastic member 66, movement distances may be inconsistent with each other. In this case, slip occurs between adjacent wedge pieces, and the steel rods 20 are not fixed properly.

Therefore, in the present invention, when the elastic member 66 presses the stone press 671 located outside the lower end of the press member 67, the stone press 671 presses the upper end of the wedge 62 at the same time. Thereby, it is possible to simultaneously move the divided wedge pieces, thereby preventing the wedge 62 from slipping.

In the present invention, the elevator 63 for moving the wedge 62 to the upper side is capable of various embodiments.

One embodiment of the hatch 63 is disclosed in Figs. 5-7.

That is, in the present invention, the latch member 64 is coupled to the side of the door 63, and the side of the wedge cone 61 below the wedge hole 611 is guided so that the latch member 64 can be moved up and down A horizontal elongated hole 613 formed horizontally at the upper end of the vertical elongated hole 612 and the vertical elongated hole 612 to guide the latch member 64 to move in the horizontal direction may be formed.

6, when the latch member 64 is positioned below the vertical slot 612, the elevation port 63 is positioned lower and the steel rod 20 is fixed while the wedge 62 is inserted into the wedge hole 611 .

7, when the latch member 64 is lifted upward along the vertical slot 612, the platform 63 is moved upward, and the wedge 62 is pushed upward from the wedge hole 611, 20 is released.

The wedge 62 is pressed downward by the elastic member 66 so that the latch member 64 is horizontally moved above the vertical slot 612 to be caught by the horizontal slots 613, Can be prevented from moving downward.

On the other hand, a thread is formed on the outer circumferential surface of the steel rod 20, and a screw thread engaged with the thread of the steel rod 20 may be formed on the inner circumferential surface of the wedge 62.

When the steel rods 20 are fixed, the threads of the steel rods 20 and the threads of the inner circumferential surfaces of the wedges 62 are mutually engaged, so that the steel rods 20 can be easily pressed and fixed.

The thread of the steel bar 20 includes not only a continuous thread but also a case where a plurality of annular protrusions are discontinuously protruded along the outer circumferential surface of the steel bar 20.

FIG. 8 is an exploded perspective view showing another embodiment of the steel bar fastener, FIG. 9 is an exploded perspective view showing an embodiment of the entrance, and FIG. 10 is a perspective view showing the operation of the entrance.

8 to 10, another embodiment of the hatch 63 is disclosed.

That is, the entrance door 63 has a cylindrical body 631 having a through hole 632 through which the steel bar 20 passes, which moves the wedge 62 upward; The first groove portion 634 is formed on the outer circumferential surface of the main body 631 and has a lower height than the first groove portion 634 at a position spaced apart from the first groove portion 634 by a predetermined angle A flange portion 633 having a second groove portion 635 formed therein; A cam member 636 rotatably provided at a lower portion of the flange portion 633 and having a protrusion 637 formed on the upper surface thereof and having a shape corresponding to the shape of the first groove portion 634; And the latch member 64 is coupled to the side surface of the cam member 636 and the side of the wedge cone 61 below the wedge hole 611 is provided with a guide A horizontal elongated hole 613 may be formed.

When the projecting portion 637 of the cam member 636 is positioned in the first groove portion 634 of the flange portion 633 as shown in Figs. 8 and 10A, the body 631 of the elevation opening 63 The wedge 62 moves into the wedge hole 611 and the steel rod 20 is fixed.

10 (b), when the latch member 64 is moved in the horizontal direction along the horizontal slot 613, the cam member 636 rotates at a predetermined angle and the protrusion 637 of the cam member 636 And is positioned in the second groove portion 635 of the flange portion 633.

Since the second groove portion 635 is lower in height than the first groove portion 634, the main body 631 of the entrance door 63 can be lifted upwards. Accordingly, the wedge 62 can be lifted up to release the fixing of the steel bar 20. [

The second groove portion 635 causes the projecting portion 637 of the cam member 636 to be caught by the second groove portion 635 so that the cam member 636 rotates unintentionally to return to the first groove portion 634 Thereby preventing the wedge 62 from fixing the steel rod 20 again.

9 to 10, at least one guide groove or guide protrusion 638 is formed in the vertical direction on the outer side surface of the flange portion 633 and the lower portion of the wedge hole 611 of the wedge cone 61 A protrusion or a groove corresponding to the guide groove or the guide protrusion 638 may be formed on the inner circumferential surface.

The guide groove portion or the guide projection portion 638 of the flange portion 633 and the protrusion or groove portion of the inner circumferential surface of the wedge cone 61 corresponding to the guide groove portion or the guide projection portion 638 are engaged with each other, 633 can move only in the vertical direction without rotating in the horizontal direction.

The latch member 64 may be hinged to an intermediate portion such as a lever and the outer end of the latch member 64 may be moved up and down to rotate the latch member 64, The elevating opening 63 coupled to the inner end of the latch member 64 may be raised to release the fixing of the steel bar 20 when the door 64 is moved downward.

11 is a view showing a step-by-step process of the press-in pile method of the present invention.

11 (a), (a) the pile press-in device is inserted into the pile 1 through the pile 1. The pile press- And placing the pile 1 at a position where the pile 1 is to be inserted and bringing the pressure plate 50 into close contact with the upper end of the pile 1. [

11 (b), the wedge 62 is pressed into the wedge hole 611 by positioning the elevation opening 63 downward by the latch member 64, thereby fixing the steel rod 20 , Oil pressure is applied to the oil jack (40) and the press plate (50) is moved downward to insert the pile (1) into the ground (2).

The wedge 62 is moved into the wedge hole 611 by pressing the wedge 62 so that the elastic member 66 moves the wedge 62 in the wedge hole 611. In this case, While the wedge 62 comes loose and fixes the steel rod 20.

11 (c), the wedge 62 is pushed upward from the wedge hole 611 by moving the elevation opening 63 upward by the latch member 64, 11 (d), the oil pressure of the oil jack 40 is released to move the steel bar fastener 60, the reaction plate 30, and the oil jack 40 downward .

When the oil pressure of the oil jack 40 is released in the step (d), the rigid fixture 60, the reaction plate 30, and the oil jack 40 are naturally moved by the weight of the reaction plate 30 and the steel rod fixture 60 Can be moved downward.

Finally, (e) repeating the above steps (a) to (d) a predetermined number of times, the pile 1 is inserted to a certain depth.

When the pile 1 is inserted into the ground 2 by a predetermined depth in the step (e), after the pile 1 is completely inserted, the oil jack 40 is disassembled and the steel rod 20 is removed from the coupler 11, . Then, the portion of the pillar 1 protruding upward is cut, and if necessary, the filler is poured into the void space between the pile insertion hole and the pile 1.

Among the respective constitutions of the press-in pile method, the construction overlapping with that described in the pile press-in apparatus is the same as in the pile press apparatus.

1: Pile 2: Ground
10: Anchor bolt 11: Coupler
20: steel rods 30: Reaction plate
31: Through hole 40: Oil jacks
50: Pressure plate 60: Steel rod fastener
61: Wedge cone 611: Wedge hole
612: Vertical slot 613: Horizontal slot
62: Wedge 63: Hatchway
631: 632: Through hole
633: flange portion 634: first groove
635: second groove 636: cam member
637: 638: guide projection
64: latch member 65:
651: Through-hole 652:
66: elastic member 67: pressing member
671: Stone Publishing

Claims (8)

A plurality of anchor bolts 10 to which one end is inserted and fixed to a ground around a position where a pile 1 is to be inserted in order to insert the pile 1 into the ground 2 and a plurality of anchor bolts 10 fixed to the other end of the anchor bolt 10, A reaction force plate 30 having a through hole 31 through which the plurality of steel rods 20 are inserted, an oil jack 40 coupled to a lower portion of the reaction plate 30, an oil jack 40, A push plate 50 coupled to the lower portion of the pillar 1 to press the upper end of the pile 1 and close to the ground 2 and a push rod 50 provided at the position of the through hole 31 in the upper portion of the reaction plate 30, And a steel bar fixture (60) for selectively fixing the steel rods (20) by being inserted therethrough,
The steel bar fixture (60) includes: a wedge cone (61) formed with a wedge hole (611) having an upward light lowering through which the steel bar (20) penetrates in the center; A wedge 62 provided inside the wedge hole 611 and holding the outer circumferential surface of the steel bar 20; A hatch 63 provided at a lower portion of the wedge 62 inside the wedge hole 611 of the wedge cone 61 so as to push up the wedge 62; And a latch member (64) coupled to the door (63) to move the door (63) up and down. And the pile press-fitting device comprises:
The method of claim 1,
A through hole 651 through which the steel bar 20 passes is formed on the upper end of the wedge cone 61. The wedge 62 is inserted into a space portion 652 are formed; And an elastic member 66 provided at an upper end of the wedge 62 of the space 652 to press the wedge 62; And a pile press-fitting device for piling the pile press.
3. The method of claim 2,
The latch member 64 is coupled to a side surface of the door 63 and a vertical slot 612 for guiding the latch member 64 to move up and down is formed on the side of the wedge cone 61 below the wedge hole 611, And a horizontal slot (613) formed horizontally at an upper end of the vertical slot (612) to guide the latch member (64) to move in a horizontal direction.
3. The method of claim 2,
The access port 63 has a cylindrical body 631 having a through hole 632 through which the steel bar 20 passes, which moves the wedge 62 upward. The first groove portion 634 is formed on the outer circumferential surface of the main body 631 and has a lower height than the first groove portion 634 at a position spaced apart from the first groove portion 634 by a predetermined angle A flange portion 633 having a second groove portion 635 formed therein; A cam member 636 rotatably provided at a lower portion of the flange portion 633 and having a protrusion 637 formed on the upper surface thereof and having a shape corresponding to the shape of the first groove portion 634; ≪ / RTI >
The latch member 64 is coupled to the side surface of the cam member 636 and is provided at the side of the wedge cone 61 below the wedge hole 611 in a horizontal slot (not shown) for guiding the latch member 64 to move in the horizontal direction 613) are formed in the pile press-forming apparatus.
5. The method of claim 4,
At least one guide groove or guide protrusion 638 is formed in the outer surface of the flange 633 in the vertical direction and the inner circumferential surface of the lower portion of the wedge hole 611 of the wedge cone 61 is provided with the guide groove 638) is formed on the lower surface of the pile press-in fitting device.
The method of claim 1,
Wherein a thread is formed on an outer circumferential surface of the steel bar (20), and a thread is formed on an inner circumferential surface of the wedge (62) so as to engage with the thread of the steel bar (20).
3. The method of claim 2,
The steel bar fastener 60 is inserted into the through hole 651 of the lid unit 65 so as to be slidable up and down in a cylindrical shape in which a steel bar 20 is inserted at the center and the elastic member 66 is coupled to the outside , And a pushing member (67) for pushing the upper end of the wedge (62) is further provided on the lower outer side of the peg press (671).
For piercing the pile (1) into the ground (2)
(a) placing the pile press fitting device according to any one of claims 1 to 7 at a position where the pile (1) is inserted, placing the pile (1) at a position where the pile (1) (50) to the upper end of the pile (1);
(b) By positioning the elevation opening 63 downward by the latch member 64, the wedge 62 is pushed into the wedge hole 611 to fix the steel rod 20, and oil pressure is applied to the oil jack 40, Moving the pile (1) down to the ground (2) by moving the pile (50) downward;
(c) releasing the fixing of the steel bar 20 by pushing the wedge 62 upward from the wedge hole 611 by moving the door 63 upward by the latch member 64;
(d) releasing the oil pressure of the oil jack 40 to move the steel bar fastener 60, the reaction plate 30 and the oil jack 40 downward; And
(e) repeating the steps (a) to (d) a predetermined number of times to close the pile 1 to a predetermined depth; Wherein the punching method comprises:

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