KR0148062B1 - Pile driving casing auger machine and foundation pile working method - Google Patents

Abstract

The present invention relates to a ready-made pile inlet casing auger and a method of constructing a ready-made pile using the same, which performs underground excavation work more efficiently and improves work efficiency according to the construction of the ready-made pile. Excavation casing (10) and the excavation casing (10) formed by forming a spiral soil discharge band (12) on the outside having a fitting passage portion (11) formed long as an inner diameter to fit the ready-made pile 40 therein, the excavation The excavation cap 20 is installed in the lower end of the casing 10 and the excavation blade 21 is attached to the lower portion of the casing 10, and is detachably fitted to the upper portion of the excavation casing 10. In the configuration consisting of a rotating cap 30 having a rotating shaft 31 is formed, the earth and sand discharge strip 12 formed around the outer circumferential surface of the excavating casing 10 is lower from the top of the outer periphery of the excavating casing 10 The first and second spiral strips 12a and 12b wound in a spiral shape are kept in one piece while maintaining a constant distance therebetween, and predetermined at equal intervals around the outer periphery of the lowermost end of the excavating casing 10. And a built-in casing auger, which is made by laying excavation bits 13 at an angle of inclination; Drilling the excavation hole 50 by drilling the casing auger 10 in the ground of the work position, and open the upper casing auger 10 located in the drilled excavation hole 50 to open the casing auger ( 10) by filling the ready-made pile 40 therein, filling by filling the cement paste 80 between the casing auger 10 and the ready-made pile 40, before the injected cement paste 80 is hardened The casing auger 10 is drawn from the excavation hole 50 to sequentially fill the ready-made pile 40 as the cement paste 80 cured in the excavation hole 50. Construction method of pile.

Description

Casing auger for ready-made pile root and construction method of ready-made pile using the same

Figure 1 (a), (b) is an exemplary view showing a method of embedding a conventional thin steel pipe pile

2 is an exemplary view showing a conventional thin steel pipe pile

3 is an exploded perspective view of the casing auger of the present invention

4 is an assembled perspective view of the present invention casing auger

5 is a longitudinal sectional view of the present invention casing auger

6 is an exemplary view showing an embodiment of the present invention.

(A) (b) (c) (d) of FIG. 7 sequentially illustrate the step-by-step process according to the ready-made pile construction method using the casing auger of the present invention.

* Explanation of symbols for the main parts of the drawings

10: excavation casing 11: fitting passage portion

12: earth and sand discharge band 12a, 12b: first, second spiral strip plate

13: drilling bit 14: insertion

15: fitting protrusion 20: excavation cam

21: excavation blade 22: coupling piece

30: rotating groove 31: rotating shaft

32: fitting groove 33: fixing piece

The present invention is to bury a ready-made pile in the ground to transfer the load of the building itself to the ground floor, and in particular, to perform the operation of underground excavation work more efficiently to improve the work efficiency according to the construction of the ready-made pile The present invention relates to a casing auger and a method for constructing a ready-made pile using the same.

Modern buildings are becoming increasingly tall and large in size, and these high-rise buildings are subject to large vertical loads or wind power caused by their own weight, and these structures are supported by supporting piles supported by the ground layers through the ground. It was constructed as.

As such, the pile construction, which can be essential in the construction of high-rise buildings, is a shock type that directly hits the pile in the ground by hitting it with a driving machine, and drills the excavation hole by rotating an auger and then inside the excavation hole. It is roughly classified as a perforation ceremony based on the pile. Impact pile construction is mainly applied to construction of hard rock foundations, while perforated pile construction is mainly applied to construction of soft foundations and is known to have the advantage of preventing noise generation.

As described above, perforated pile construction applied to the soft ground is drilled to the ground layer so that the support pile can be entered by performing underground excavation work as the auger mounted on the excavating equipment, and the auger is drawn from the drilled excavation hole. Later, by installing the support pile in the excavation hole, it has the advantage of preventing the occurrence of noise during the installation of the ready-made pile.

However, this is because when the auger is drawn from the drilled hole, the soil on the inner wall of the hole collapses and covers the ground layer of the bottom of the drill hole thickly so that the ready-made piles coming into the excavation hole cannot contact the ground layer. However, there is a problem that the structure supported by the ready-made pile is structurally weak because the load applied to the ready-made pile cannot be directly transferred to the ground layer.

Japanese Patent Laid-Open Publication No. Hei 7-127055 has been proposed to solve the problems as described above, as shown in Figure 1, the bottom plate 2 and the excavation blade (3) at the bottom of the pile body (1) 3) is provided, and the spiral outer blade 4 having the outer diameter after the double distribution of the pile body outer diameter is almost wound once and projected on the lower outer periphery, and at the same time, a plurality of head portions of the head body 1 of the pile body 1 are provided. The reinforcement (C) formed by vertically installing the thick pipe (11) on the top plate (10) is inserted into the head end of the steel pipe pile (A) formed by protruding the locking jaw (5.5) from the outside to the pile body (1) Cover the rotating cap (B) provided with a coupling groove (9, 9) for coupling the engaging jaw (5) and the detachable material in the body portion (6) that can be inserted, the steel pipe pile (A) by the rotating cap Of thin steel pipe piles which are pressed so as to be inserted into the ground and embedded by the rotational driving force of the spiral blades 4. Process and;

As shown in FIG. 2, the bottom plate 2 and the excavation blade 3 are installed at the lower end of the pile body 1, and the lower outer periphery has an outer diameter about twice as large as the outer diameter of the pile body 1. At the same time, the spiral blade 4 is wound around and provided to protrude, and at the same time, a plurality of locking jaws 5 and 5 are protruded to the outer periphery of the head portion of the pile body 1, and at the same time, the head portion of the pile body 1 is mounted. The thin-walled steel pipe pile which fixed the circular or annular reinforcement board 12 in the position which protruded and provided the latching jaws 5 and 5 is disclosed earlier.

The method of embedding the thin steel pipe pile is a rotary cap (B) that is exposed to the outside of the head end of the steel pipe pile (A) to rotate and press the steel pipe pile (A) to serve as a rotary propulsion force of the spiral wing (4). When embedding A) in the ground, the torsion of the head of the steel pipe pile A is actuated by inserting the thick pipe 11 of the reinforcement C into the head portion of the steel pipe pile A subjected to the rotational force to be reinforced. Prevents deformation due to rotational force,

In the thin steel pipe pile, the reinforcing plate 12 is fixed to the inside of the head of the pile main body 1 by installing the bottom plate 2, the excavation blades 3 and 3, and the large spiral spiral blade 4 at the lower end thereof. By reinforcing the head portion of the steel pipe pile (A) to receive the torsional rotational force intensively during excavation, it was possible to form a thin section of the pile body (1) constituting the steel pipe pile (A).

That is, the method of embedding the thin steel pipe pile and the thin steel pipe pile is basically embedded in the ground while the steel pipe pile (A) itself is rotated and pressed, so that the lower end of the steel pipe pile (A) is in contact with the ground layer. While having the advantage of being able to directly transfer the load acting on the ground, structurally reinforcing the head portion of the pile body (1) forming the steel pipe pile (A) to make the cross-sectional thickness of the pile body (1) as thin as possible It is true that it has the advantage of reducing the cost by forming.

However, such a conventional method for embedding thin steel pipe piles and thin steel pipe piles forms a thin section of the pile main body 1 constituting the steel pipe pile A and embeds the steel pipe pile A in the ground to be embedded. First, as the cross-sectional thickness of the pile body forming the steel pipe pile was thin, the middle part of the steel pipe pile subjected to the compressive force along with the excessive rotational force applied during the excavation work may be warped or bent.

Whenever the second steel pipe pile (A) is embedded, a separate reinforcement (C) or reinforcing plate (12) is installed inside the head of the steel pipe pile (A), and the spiral wing (4) below the steel pipe pile (A) By attaching), the number of parts required is unnecessarily increased, resulting in the loss of economical efficiency, and at the same time, the labor efficiency and the hassle are increased.

Third, the excavation work is carried out under the ground depending on the rotational propulsion force of the spiral wing 4 installed in the lower portion of the steel pipe pile (A) to be rotated, so that the excavated earth and sand during the excavation work cannot be discharged to the ground. There was a problem that the construction period was extended when the steel pipe pile (A) was laid due to the digging ability.

The present invention utilizes the first casing auger as an excavation means to bury the ready-made pile in the ground stably and steadily to improve the reliability of the ready-made pile construction, and to double the underground excavation capacity of the casing auger itself according to the ready-made pile construction The present invention provides a casing auger and a method of constructing a ready-made pile using the same, which realizes a shortening of air and improves the economics of the ready-made pile by allowing the casing auger to be manufactured once and repeatedly.

The present invention also has an excavation casing (10) having a fitting passage portion (11) formed long as an inner diameter of the ready-made pile (40) to be fitted therein and forming a spiral soil discharge belt (12) on the outside thereof. And, the excavation cap 20 is installed on the lower end of the excavation casing 10 and the excavation blade 21 is attached to the lower portion, and is assembled by detachably fitted to the upper portion of the excavation casing 10 In terms of the rotating cap 30 having a rotating shaft 31 protruding from the center of the upper end, the technical concept is the same as the conventional one.

However, as shown in FIGS. 3 to 6, the ready-made pile root inlet casing auger 10 of the present invention, the earth and sand discharge strip 12 formed around the outer peripheral surface of the excavation casing 10 is excavating casing ( 10) the first and second spiral strips 12a and 12b wound in a spiral shape while maintaining a constant distance from the top to the bottom of the outer periphery in one pair, and the bottom end of the excavation casing 10 The technical configuration is characterized in that the excavation bits 13 to be installed to be inclined at a predetermined angle at regular intervals around the outer periphery.

The present invention constituted as described above, by performing the underground excavation work through the first casing auger 10 to allow the installation of the ready-made pile 40 in the drilled drilling holes 50, when the ready-made pile 40 in Of course, it is possible to reliably bury without deformation or damage, and the earth and sand discharge bands (12) installed on the entire outer peripheral surface of the second casing auger (10) by one set of the first and second spiral strip plates (12a) (12b) ) And drastically improves the ground excavation capacity as an excavation bit (13), and by allowing the casing auger (10) to be used repeatedly during the construction of the third ready-made pile (40) to perform the ready-made pile construction more economically It will have the advantage of making it possible.

Hereinafter, each component will be described in more detail with reference to specific embodiments of the present invention.

Excavation casing 10 is to be excavated while rotating by the rotation cap 30 installed on the upper portion, through the excavation casing 10 can be installed in the perforated excavation hole 50 in the perforated excavation hole (50) This is the structure that performs the function.

The excavation casing 10 is made of a cylindrical steel pipe pipe to form a fitting passage portion 11 that is opened up and down so that the ready-made pile 40 can be fitted therein, and around the outer circumferential surface of the excavating casing 10. The soil discharge band 12 may be formed.

The earth and sand discharge strip 12 is integrally wound in a spiral while maintaining a constant interval with one set of the first and second spiral strip plates 12a and 12b from the bottom to the top of the outer circumference of the excavation casing 10. The attachment is fixed.

That is, the soil discharge strip 12 is formed over the entire outer circumferential surface of the excavation casing 10 by using one set of the first and second spiral strip plates 12a and 12b, and excavation hole 50 drilled during underground excavation By discharging the excavated soil in the ground smoothly, the drilling resistance 50 is quickly drilled by reducing the rotational resistance applied to the excavation casing 10 by the excavated soil in the excavation hole 50 during underground excavation work. At the same time, after incorporating the ready-made pile 40 into the drilled excavation hole 50, it is possible to expect an advantage of easily drawing the excavation casing 10 from the drilled excavation hole 50. will be.

Then, several drilling bits 13 are installed at a predetermined angle at regular intervals around the outer circumferential surface of the lowermost end of the excavation casing 10 at a predetermined angle, thereby rotating integrally with the excavating casing 10 which is excavated while rotating. By excavating the soil to be able to drill the excavation hole (50).

At this time, the excavation bits 13 are disposed below the excavation casing 10 so as to be connected to the earth and sand discharge strip 12 installed over the entire outer circumferential surface of the excavation casing 10, as the excavation casing 10 rotates and excavates. The excavation bit 13 is to excavate the earth and sand, the excavated soil is perforated the excavation hole 50 while discharging to the ground as the earth and sand discharge band 12 outside the excavation casing 10, underground excavation work It will have the advantage of double the excavation ability.

Here, the excavation casing (10) formed by cutting a pair of insertion portions (14) opposed to both sides of the lower end so that the excavation cap 20 to be described later to be assembled, the outer portion of the excavation casing (10) By forming a pair of opposing protrusions 15 to be assembled to the rotating cap 30 to be described later.

The excavation cap 20 is detachably fitted inside the lower end of the excavation casing 10 to excavate the soil at the top end of the excavation casing 10 and at the same time when the excavation casing 10 is pulled out, the excavation casing 10 Separated from the) is a structural portion that performs the function of supporting the lower end of the ready-made pile 40.

The bottom surface of the excavation cap 20 to have a plurality of excavation blades 21 protruding vertically at regular intervals to each other, so that the excavation work can be carried out at the bottom end of the excavation casing (10) do.

In addition, the excavation cap 20 protrudes to form a pair of insertion portions 14 corresponding to a pair of insertion portions 14 cut vertically on the lower end of the excavation casing 10 on opposite sides of the outer peripheral surface thereof, The coupling piece 21 of the excavation cap 20 is inserted into the insertion portion 14 of the excavation casing 10 so that the excavation cap 20 is detachably assembled on the excavation casing 10.

Since the excavation cap 20 is assembled by fitting the coupling pieces 21 formed on the outer circumferential surface of the excavation casing 10 in a straight line, the excavation casing 10 rotates. While excavating while the excavation casing 10, the excavation cap 20 is coupled to the lower state while integrally rotating to perform excavation work. In addition, when the excavation casing 10 is pulled out in the state in which the ready-made pile 40 is mounted in the excavation casing 10 which drills the excavation hole 50, the excavation cap 20 under the excavation casing 10 is formed. While being naturally separated by being caught by the lower end of the ready-made pile 40, the excavation cap 20 supports the lower end of the ready-made pile 40 to be grounded to the ground layer 70 in the excavation hole 50.

Rotating cap 30 is detachably assembled on the top of the excavation casing 10 to rotate by the drive means 61 of the excavation equipment 60 to perform the function of rotating the excavation casing 10 to be excavated It is a structural department.

The pivoting cap 30 forms fitting grooves 32 corresponding to the pair of fitting protrusions 15 protruding from the upper outer circumferential surface of the excavating casing 10 on both sides of the lower end thereof, and the excavating casing ( 10) Fit the rotation cap 30 so that the outer side of the upper end and the fitting protrusion 15 of the excavation casing 10 is engaged with the fitting groove 32 of the rotation cap 30 is detachably assembled.

Therefore, the pivoting cap 30 is rotated by the driving means 61 of the drilling equipment 60 while rotating the assembled casing 10 to perform underground excavation work, the excavation work is finished Afterwards, the rotating cap 30 is separated from the excavation casing 10 so as to be positioned in the perforated excavation hole 50 so that the top pile 40 can be mounted inside the excavating casing 10 with the upper portion opened, and After the pile 40 is entered, the excavation casing 10 can be drawn out from the excavation hole 10.

Here, the fitting grooves 32 of the rotation cap 30 are each formed in a T-shape, by connecting the outer side of the incision free end of the fitting grooves 32 with the fixing piece 33, and rotates during the rotary excavation operation It is preferable to prevent deformation due to the torsional rotational force applied to the fitting groove 32 of the cap 30.

On the other hand, when the concrete pile construction method using the casing auger of the present invention will be described in detail by the accompanying drawings as follows.

Figure 7 (a) shows the step of drilling the excavation hole 50 by performing the excavation work while drilling the casing auger 10 in the ground of the work position.

In this drilling hole 50 drilling operation, the casing auger 10 is prepared after assembling the pivoting cap 30 and the excavation cap 20 at the upper and lower ends of the excavation casing 10, respectively. Mounted in the drive means 61 of the excavation equipment 60, by driving the drive means 61 of the excavation equipment 60 to perform the underground excavation work of the work position while the forward rotation of the casing auger (10) 50 will be punched.

In addition, when drilling the drilling hole 50, it drills deeply until the bottom layer of the casing auger 10 reaches the ground layer 70, and then drills through the excavation casing 10 of the casing auger 10. The ready-made pile 40 in the excavation hole 50 to be ground-fixed to the ground layer 70.

FIG. 7 (b) shows the working process of opening the upper portion of the casing auger 10 located in the drilled excavation hole 50 and inserting the ready-made pile 40 into the casing auger 10. .

In this approach of the ready-made pile 40, after completing the drilling hole 50 drilling work as the casing auger 10, the casing auger 10 is separated from the drive means 61 of the excavating equipment 60 By detaching the rotating cap 30 of the separated casing auger 10, the ready-made pile 40 molded as concrete is introduced through the upper part of the fitting passage 11 inside the opened excavation casing 10. .

At this time, the lower portion of the ready-made pile 40 fitted in the excavation casing 10 constituting the casing auger 10 is in contact with the excavation cap 20 assembled to the lower end of the excavation casing 10 to the ground layer 70. Will be grounded to ground.

Figure 7 (c) shows the working process of the step of filling the cement paste 80 between the casing auger 10 and the ready-made pile 40 is filled.

That is, this is a cement inlet (not shown) at the upper end of the open casing 10 of the casing auger 10 in the state in which the ready-made pile 40 in the excavating casing 10 of the casing auger 10. The cement paste 80 is injected between the casing auger 10 and the ready-made pile 40.

FIG. 7D shows that the cement paste 80 hardened in the drilling hole 50 by drawing the casing auger 10 from the drilling hole 50 before the injected cement paste 80 is cured. The construction is completed by embedding the pile 40.

The casing auger 10 is buried in the excavation hole 50 before the cement paste 80 mixed between the casing auger 10 and the ready-made pile 40 is completely hardened. Before the cement paste 80 incorporated in the upper portion is completely hardened, assembling the pivoting cap 30 on the upper opening of the excavation casing 10, the driving means of the drilling equipment 60 through the pivoting cap 30 ( After the casing auger 10 is mounted on the casing 61, the casing auger 10 is drawn out of the excavation hole 50 while the casing auger 10 is reversely rotated as the driving means 61 of the excavating equipment 60.

At this time, the excavation cap 20 located below the excavation casing 10 of the casing auger 10 is detached from the excavation casing 10 in a state supporting the lower end of the ready-made pile 40, the outside of the ready-made pile 40 Since the cement paste 80 filled in the excavation hole 50 is buried together with the ready-made pile 40, the cement paste 80 is gradually cured while being cured for a predetermined time after the casing auger 10 is completely drawn out. Accordingly, the ready-made pile 40 is vertically erected in the drilled drilling hole 50 by the cement paste 80 to be hardened, and is firmly embedded.

The construction method of the ready-made pile using the casing auger of the present invention performing a step-by-step work process as described above, the underground excavation operation to the casing auger (10), through the casing auger (10) the ready-made pile (40) It is possible to firmly embed the ready-made pile 40 in the ground as the injection-hardened cement paste 80 while unreasonably infiltrating into the drilled excavation hole 50.

As described above, the present invention doubles the excavation capacity of the casing auger itself, thereby efficiently performing the installation work according to the construction of the ready-made pile, and shortens the construction period, and utilizes the casing auger as an excavating means, thus making the ready pile in the ground. It has the advantage of being stable and robust.

Claims (4)

Excavation casing (10) and the excavation casing (10) formed by forming a spiral soil discharge band (12) on the outside having a fitting passage portion (11) formed long as an inner diameter to fit the ready-made pile 40 therein, the excavation The excavation cap 20 is installed in the lower end of the casing 10 and the excavation blade 21 is attached to the lower portion of the casing 10, and is detachably fitted to the upper portion of the excavation casing 10. In the configuration consisting of a rotating cap 30 having a rotating shaft 31 is formed, the earth and sand discharge strip 12 formed around the outer circumferential surface of the excavating casing 10 from the upper to the lower portion of the outer periphery of the excavating casing 10 The first and second spiral strips 12a and 12b wound in a spiral shape are kept in one piece while maintaining a constant interval therebetween, and each predetermined interval is set around the outer periphery of the lowermost end of the excavating casing 10. Excavation bits 13 at an oblique angle as an angle Ready-made pile near ipyong as set hayeoseo casing characterized in that the auger. According to claim 1, wherein the excavation cap 20 is coupled to the opposite side of the outer peripheral surface, a pair of inserts (14) corresponding to the pair of inserts 14 formed in the vertical cut in the lower end of the excavation casing (10) Protruding form, the coupling piece 21 of the excavation cap 20 is fitted to the insertion portion 14 of the excavation casing 10 to be detachably assembled to the excavation cap 20 on the excavation casing 10 Casing Auger for ready-made pile roots characterized in that. According to claim 1, wherein the fitting grooves 32 of the pivoting cap 30 are each formed in a T-shape, characterized in that by connecting the outside of the incision free end of the fitting grooves 32 to the fixing piece 33. Ready-made pile root casing auger. Drilling the excavation hole 50 by drilling the casing auger 10 in the ground of the work position, and open the upper casing auger 10 located in the drilled excavation hole 50 to open the casing auger ( 10) by inserting the ready-made pile 40 inside, filling by filling the cement paste 80 between the casing auger 10 and the ready-made pile 40, before the injected cement paste 80 is hardened Casing auger characterized in that the step of drawing the casing auger (10) from the excavation hole 50 to bury the ready-made pile 40 as the cement paste 80 cured in the excavation hole (50) in sequence Construction method of ready-made pile using