KR102246164B1 - The method for casr-in place pile construction using casing rotator being able to drill with reverse circulation - Google Patents

Abstract

The present invention relates to a method of constructing a pile in underwater rock mass using a casing rotator, and more particularly, to a method of constructing a large diameter pile using a casing rotator.
A pile construction method using a casing rotator according to an aspect of the present invention includes a first soil layer excavation step, a first soil discharge step, a second soil layer excavation step, a second soil discharge step, and a reverse excavation plate adapter mounting step, It includes a rock excavation step, a burr discharge step, a first concrete pouring step and a second concrete pouring step. In the step of excavating the first soil layer, the first casing having a large diameter is mounted on a casing rotator to press-fit the first casing into the soil layer. In the discharging step, the vomit inside the first casing is discharged using a hammer grab. In the step of excavating the second soil layer, a second casing having a small diameter is mounted on the casing rotator to press-fit the second casing into the soil layer from the inside of the first casing. In the second vomit discharge step, the vomit inside the second casing is discharged using a hammer grab. In the step of mounting the reverse excavator adapter, the driver adapter of the reverse circulation excavator for the drill bit is mounted on the casing rotator. In the rock excavation step, the drill bit is mounted on the casing rotator to excavate rock in the second casing. In the burr discharge step, burrs generated by the drill bit are discharged to the outside through an air swivel. In the first concrete pouring step, concrete is poured after installing a reinforcing bar net in the second casing. In the second concrete pouring step, concrete is poured after installing a reinforcing bar net in the first casing.

Description

The method for casr-in place pile construction using casing rotator being able to drill with reverse circulation}

The present invention relates to a method of constructing a pile in an underwater rock mass using a casing rotator having a reverse circulation excavation function, and in more detail, a large diameter pile can be constructed using a casing rotator having a reverse circulation excavation function. It's about how to be.

In general, piles are constructed using a casing rotate in order to construct a bridge foundation, a large building foundation, a plant and a tank foundation on a multi-layered or single-layered ground made of soil, sand, gravel, or weathered rock.

The pile was constructed by clamping the casing to the casing rotator, rotating the casing in either direction, pressing the casing into the soil layer, and excavating the rock mass using RCD equipment.

Registered Patent No. 10-0758113 (Registration date September 05, 2007)

If the diameter of the casing is too large, it can be pressed into the soil layer, but it is difficult to excavate and press-in the rock layer. Therefore, there is a problem in that there is a limitation in constructing a large diameter with too large a diameter of the casing with the conventional pile construction method.

The present invention is to solve the above problems. An object of the present invention is to provide a pile construction method using a casing rotator capable of constructing a large-diameter casing.

A pile construction method using a casing rotator according to an aspect of the present invention includes a first soil layer excavation step, a first soil discharge step, a second soil layer excavation step, a second soil discharge step, and a reverse excavation plate adapter mounting step, It includes a rock excavation step, a burr discharge step, a first concrete pouring step and a second concrete pouring step. In the excavation step of the first soil layer, a first casing having a large diameter is mounted on a casing rotator to press-fit the first casing into the soil layer. In the discharging step, the vomit inside the first casing is discharged using a hammer grab. In the step of excavating the second soil layer, a second casing having a small diameter is mounted on the casing rotator to press-fit the second casing into the soil layer from the inside of the first casing. In the second vomit discharge step, the vomit inside the second casing is discharged using a hammer grab. In the step of mounting the reverse excavator adapter, the driver adapter of the reverse circulation excavator for the drill bit is mounted on the casing rotator. In the rock excavation step, the drill bit is mounted on the casing rotator to excavate rock in the second casing. In the burr discharging step, burrs generated by the drill bit are discharged to the outside through an air swivel. In the first concrete pouring step, concrete is poured after installing a reinforcing bar net in the second casing. In the second concrete pouring step, concrete is poured after installing a reinforcing bar net in the first casing.

In addition, the pile construction method using a casing rotator according to another aspect of the present invention includes a soil layer excavation step, a soil discharge step, an adapter mounting step, a pin pile press-in step, a first concrete pouring step and a second concrete pouring step. Includes. In the soil layer excavation step, a large diameter casing is mounted on a casing rotator to press-fit the casing into the soil layer. In the vomit discharge step, the vomit inside the casing is discharged using a hammer grab. In the adapter mounting step, a driver adapter of a reverse circulation excavator for a small-diameter drill bit is mounted on the casing rotator. In the pin pile press-fitting step, the drill bit is mounted on the casing rotator to excavate rock mass inside the casing to press-fit a plurality of pin piles. In the first concrete pouring step, concrete is poured after installing a reinforcing bar net on the pin pile. In the second concrete pouring step, after installing a reinforcing bar net in the casing, concrete is poured.

According to the present invention, after the large-diameter casing is press-fit into the soil layer, the small-diameter casing or pin pile is press-fit into the rock layer. Therefore, it is possible to facilitate the construction work that requires a large-diameter pile.

1 is an embodiment of a first soil layer excavation step of a pile construction method using a casing rotator according to an aspect of the present invention,
Figure 2 is an embodiment of the first vomit discharge step of the pile construction method using a casing rotator according to an aspect of the present invention,
3 is an embodiment of a second soil layer excavation step of a pile construction method using a casing rotator according to an aspect of the present invention,
Figure 4 is an embodiment of the second vomit discharge step of the pile construction method using a casing rotator according to an aspect of the present invention,
Figure 5 is an embodiment of the adapter mounting step of the pile construction method using a casing rotator according to an aspect of the present invention,
6 is an embodiment of a rock excavation step of a pile construction method using a casing rotator according to an aspect of the present invention,
7 is an embodiment of a first concrete pouring step of a pile construction method using a casing rotator according to an aspect of the present invention,
8 is an embodiment of a second concrete pouring step of a pile construction method using a casing rotator according to an aspect of the present invention,
9 is an embodiment of a soil layer excavation step of a pile construction method using a casing rotator according to another aspect of the present invention,
10 is an embodiment of a concrete pouring step of a pile construction method using a casing rotator according to another aspect of the present invention.

An embodiment of a pile construction method using a casing rotator according to the present invention will be described with reference to FIGS. 1 to 8.

An embodiment of the pile construction method using the casing rotator according to the present invention is the first soil layer excavation step (S11), the first soil discharge step (S13), the second soil layer excavation step (S15), and the second soil discharge Step (S17), adapter mounting step (S19), rock excavation step (S21), burrock discharge step (S23), a first concrete pouring step (S25) and a second concrete pouring step (S27). .

In the first soil layer excavation step (S11), the first casing 11 having a large diameter is mounted on the casing rotator 100 to press-fit the first casing 11 into the soil layer 1. For example, the first casing 11 with a diameter of about 4m is mounted on the casing rotator 100 using a crane, and then clamped with the upper clamp 101_1 and the lower clamp 101_2 to be removed using a drive device. 1 The casing 11 is pressed into the soil layer 1 as shown in FIG. 1. At this time, the first casing 11 is not press-fitted to the bottom of the soil layer 1, but only to a certain depth.

In the first vomit discharge step (S13), as shown in FIG. 2, the vomit inside the first casing 11 is discharged using the hammer grab 110.

In the second soil layer excavation step (S15), a second casing 13 having a small diameter is mounted on the casing rotator 100 to move the second casing 13 from the inside of the first casing 11 to the bottom of the soil layer 1 Press-in. To this end, first, the adapter 103 for the second casing 13 is mounted on the casing rotator 100. For example, when using the second casing 13 having a diameter of 2.5m, the upper/lower adapters 103_1 and 103_2 for 2.5m are mounted as shown in FIG. 3. Then, the second casing 13 of the small diameter is seated on the casing rotator 100 using a crane, and clamped with an adapter 103, and the second casing 13 is attached to the soil layer 1 as shown in FIG. 4 by using a drive device. ) To the bottom.

In the second vomit discharge step (S17), the vomit inside the second casing 13 is discharged using the hammer grab 112 as shown in FIG. 4.

In the mounting step (S19) of the reverse excavator adapter, the driver adapter 105 of the reverse circulation excavator for a drill bit is mounted on the casing rotator 100 as shown in FIG. 5.

In the rock excavation step (S21), the drill bit 107 is mounted on the casing rotator 100 to excavate the rock layer 3 from the inside of the second casing 13 as shown in FIG. 6.

In the burr discharge step (S23), the burrock generated by the drill bit 107 is discharged to the outside through the air level 109. To this end, air is introduced through the air level 109, and water is supplied through a water pump. Then, the burrock is discharged to the outside through the air level 109.

In the first concrete pouring step (S25), a reinforcing bar network 21 is installed in the second casing 13 and concrete is poured as shown in FIG. 7.

In the second concrete pouring step (S27), as shown in FIG. 8, a reinforcing bar net 23 is installed in the first casing 11 and concrete is poured.

When there is a need to construct large-diameter piles, it is difficult to press-fit large-diameter piles to the bedrock (3). So, as in this embodiment, after pressing the first casing 11 of the large diameter to a certain depth, the second casing 11 of the small diameter is pressed to the depth of the soil layer and excavating the rock mass to press the pile.

Another embodiment of a pile construction method using a casing rotator according to the present invention will be described with reference to FIGS. 9 and 10.

Another embodiment of the pile construction method using the casing rotator according to the present invention is a soil layer excavation step 31, a soil discharge step 33, an adapter mounting step 35, a pin pile press-in step 37, and It includes one concrete pouring step 39 and a second concrete pouring step 41. This embodiment is suitable when constructing a pile with a diameter of 7m or more.

In the soil layer excavation step (S31), a large-diameter casing 15 is mounted on the casing rotator to press-fit the casing 15 into the soil layer 1 as shown in FIG. 9. In this embodiment, a casing 15 having a diameter of 8 m is used, and in this case, the casing 15 is press-fitted to the bottom of the soil layer 1.

In the vomit discharge step (S33), the vomit inside the casing 15 is discharged using a hammer grab.

In the adapter mounting step (S35), the driver adapter of the reverse excavator for the small-diameter drill bit is mounted on the casing rotator.

In the pin pile press-in step (S37), a drill bit is mounted on the casing rotator to excavate rock mass from the inside of the casing 15 to press-fit a plurality of pin piles 17. In the case of this embodiment, three pin files 17 are press-fitted. Since the diameter of the casing 15 is 8 m, it is sufficiently wide to secure a space, so that three pin piles 17 can be press-fitted.

In the first concrete pouring step (S39), after installing the reinforcing bar network 37 on the pin pile 17, as shown in FIG. 10, concrete is poured.

In the second concrete pouring step (S41), after installing the reinforcing bar network 37 in the casing 15, concrete is poured.

Even in the case of this embodiment, if the diameter of the casing is too large, the casing cannot be pressed into the rock layer. In this case, after excavating a plurality of holes in the male rock layer where the casing is pressed into the soil layer, a plurality of pin piles are driven to be supported. Then, you can construct large-diameter piles.

1: soil layer 3: rock layer
11: first casing 13: second casing
15: casing 17: pin pile
21, 23, 35, 37: reinforcing bar 100: casing rotator
101_1, 101_2: clamp 103: adapter
105: driver adapter 107: drill bit
109: Air swivel

Claims (2)

A first soil layer excavation step of attaching a large diameter first casing to a casing rotator to press-fit the first casing into the soil layer,
A first vomit discharge step of discharging the vomit inside the first casing using a hammer grab,
A second soil layer excavation step of attaching a second casing of a small diameter to the casing rotator to press-fit the second casing into the soil layer from the inside of the first casing,
A second vomit discharge step of discharging the vomit inside the second casing using a hammer grab,
A reverse drilling half adapter mounting step of mounting a driver adapter of a reverse circulation excavator for a drill bit on the casing rotator,
A rock excavation step of mounting the drill bit to the casing rotator to excavate rock mass from the inside of the second casing,
A burr discharge step of discharging burrs generated by the drill bit to the outside through an air swivel,
A first concrete pouring step of pouring concrete after installing a reinforcing bar net inside the second casing,
A pile construction method using a casing rotator, comprising: a second concrete pouring step of pouring concrete after installing a reinforcing bar net in the first casing. delete

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