KR102022845B1 - Device for pile install distance and maintance of erection and rotating correction and pile rotating correction method using the same - Google Patents

Abstract

Provided in the present invention are a device provided to maintain an installation interval of a pile installed in the ground and verticality of the pile, and to rotate and correct a twisted pile in a correct manner regardless of the type of the pile, and a rotating correction method using the same. Therefore, a pile rotating correction device maintaining an installation interval and verticality of a pile according to an adequate embodiment of the present invention is a device to maintain the interval and verticality of a pile when the same is buried and installed in the ground, and to correct a pile twisted during an installation process in a correct manner, which comprises: a main frame of a square box shape arranged on the ground surface on which the pile is to be installed, and having a correction driving shaft orthogonal to a penetration hole shaft into which the pile is inserted; a guide means installed at the main frame in order to guide to maintain a penetration position, an interval, and penetration verticality of a penetration hole; and at least one correction driving device installed on the correction driving shaft of the main frame in order to rotate the pile twisted by a hydraulic or electric motion in a direction opposite the direction in which the pile is rotated.

Description

Device for pile install distance and maintance of erection and rotating correction and pile rotating correction method using the same}

The present invention relates to a device for correcting the rotation of the file and to a method for correcting the rotation using the same, in particular, the installation interval of the file installed on the ground is made, the verticality of the file is maintained, regardless of the type of the file The present invention relates to a file rotation correction device and a rotation correction method using the same so that the rotation can be corrected correctly.

In general, in-site casting pile method using a casing is installed in the measured position of the ground (casing) after the installation (casing), the internal excavation is carried out, inserting the pile into the casing inside the concrete pouring and drawing the casing This is done. Since the casing draw is a work performed before the concrete is cured, the pile is rotated in one direction during drawing.

In this case, after drawing out of the casing, that is, after the concrete is cured, a separate groove filling operation is required to install a strip on the pile. Moreover, this groove filling operation is difficult because welding should be made up and down in the groove filling portion.

 Therefore, if it is possible to restore the rotation of the pile after the extraction of the casing in the on-site pour pile method using the auger boring or casing, there is an advantage that the home filling operation is not necessary in the future, a technical solution is required.

As a background technology of the present invention, Korean Patent Registration No. 10-0927186 has been proposed, 'a continuous wall construction method for the wall and the order'. This is a method of constructing a continuous wall by a continuous casing method using a guide. After inserting the casing through a casing guide installed on the ground, the casing is pulled out while inserting the pile after the internal excavation of the casing, and the mortar is connected between the piles. By dismantling the casing guide, one continuous wall structure was constructed. In this construction method, the casing guide enables the insertion guide of the casing, but no means or a method for performing the correction of the inserted file later is not presented.

Korea Patent Registration No. 10-0927186

The present invention provides a device and a rotation correction method using the same to make the installation interval of the file installed on the ground, to maintain the verticality of the file, to correctly rotate the twisted file irrespective of the type of the file There is a purpose.

Pile rotation calibration device that combines the installation interval and verticality of the pile according to an embodiment of the present invention, the device for maintaining the distance and verticality when installing the pile embedded in the ground and correcting the wrong file during the installation process A rectangular box-shaped main frame having a calibration operation axis perpendicular to the drilling hole axis into which the file is inserted, and disposed on the ground on which the file is to be installed; A guide means installed on the main frame to guide the drilling position and spacing of the drilling holes and maintaining the drilling verticality; At least one calibration actuator installed on the calibration operation shaft of the main frame to rotate the twisted file in the opposite direction of rotation by hydraulic or electrical operation.

The calibration actuator further includes a pair of upper calibration cylinders arranged on the upper part of the main frame so as to be symmetrical with respect to the casing penetration vertical axis, and at the same time, the operating axis is aligned with the longitudinal direction of the main frame; A pair of lower calibration cylinders positioned downward from the pair of upper calibration cylinders and at the same time arranged to be symmetrical with respect to the casing penetration vertical axis and installed such that the operating axes coincide with the longitudinal direction; A pair of upper sliding straightening jaws formed on the surfaces of the pair of upper calibration cylinders which are pivotally connected to each other so as to be slidably movable in the longitudinal direction, and facing each other for applying the rotational force in the opposite direction to the corresponding pile. Upper pile calibration jig; A pair of pairs of lower sliding straightening jaws formed on the surfaces of the pair of lower calibration cylinders which are pivotally connected to each other so as to be slidably movable in the longitudinal direction, and which face each other to apply the rotational force to the file in the opposite direction rotated. Lower file calibration jig; characterized in that it comprises a.

The main frame may further include a longitudinal jig guide for linearly guiding the upper pile calibration jig and the lower pile calibration jig.

The calibration actuator further includes a pair of upper calibration cylinders arranged on the upper part of the main frame so as to be symmetrical with respect to the casing penetration vertical axis, and at the same time, the calibration operation shafts being perpendicular to the longitudinal direction of the main frame; A pair of lower calibration cylinders positioned below the pair of upper calibration cylinders and at the same time arranged to be symmetrical with respect to the casing penetration vertical axis so that the calibration operation axis is perpendicular to the longitudinal direction of the main frame; A pair is pivotally connected to the operating end of the pair of upper calibration cylinders so as to be slidably movable in the longitudinal direction, and a pair of upper sliding correction jaws formed on surfaces facing each other to apply rotational force in the opposite direction rotated. Upper pile calibration jig; A pair of lower sliding straightening jaws formed on the surfaces of the pair of lower calibration cylinders pivotally connected to each other so as to be slidably movable in a direction perpendicular to the length, and facing each other in order to apply rotational force in the opposite direction to the corresponding file; The lower file of the calibration jig; characterized in that it comprises a.

The main frame may further include a lateral jig guide for guiding the upper pile calibration jig and the lower pile calibration jig, respectively.

In addition, the guide means is characterized in that consisting of locating guide rods installed vertically at regular intervals around the casing penetration vertical axis.

In addition, the guide means is characterized in that consisting of a guide steel pipe.

In addition, the main frame is characterized in that the soil inlet blocking plate is further installed to prevent the inflow of soil around.

On the other hand, pile rotation correction method using a pile rotation correction device that combines the installation interval and verticality of the pile according to an embodiment of the present invention, the pile rotation correction device on the ground on which the casing is to be installed; Inserting the pile into the casing after injecting the casing by carrying out the guide of the locating guide rod of the pile rotating correcting device, and then inserting the pile into the casing, and then placing the casing into the casing and drawing the casing; Supplying oil pressure to the upper and lower calibration cylinders of the calibration actuator side of the pile rotation calibration device to return the rotation generated file to the original position by rotating the upper and lower pile calibration jig; Including the upper and lower pile calibration jig It is characterized in that it is operated on a calibration working axis that matches the longitudinal direction of the device.

On the other hand, pile rotation correction method using a pile rotation correction device that combines the maintenance interval and verticality of the pile installation according to another embodiment of the present invention, the pile rotation correction device on the ground to be piled; A step of drilling a hole and inserting a file into the hole by receiving the guide of the file rotation correction device side guide means; Operating the upper and lower calibration cylinders on the calibration actuator side of the file rotation calibration apparatus to rotate and return the files generated by the upper and lower file calibration jigs to their original positions; And filling the filling material in the space between the drilling hole and the pile; wherein the upper and lower pile calibration jigs are operated on a calibration operation shaft placed in the longitudinal direction of the pile rotation calibration apparatus.

In addition, pile rotation correction method using a pile rotation correction device that combines the maintenance interval and verticality of the pile installation according to another embodiment of the present invention, the pile rotation correction device on the ground to be piled; Inserting the casing by guiding the casing guide rod or the guide steel pipe on the pile rotation correction device side, carrying out the internal excavation, filling the filling material into the casing, and then drawing the casing; Supplying oil pressure to the upper and lower calibration cylinders of the calibration operator side of the file rotation calibration device to return the rotation generated file to the original position by rotating the upper and lower file calibration jig; Including, the upper and lower file calibration jig is a file rotation calibration It is characterized in that it is operated on the calibration operation axis placed in the longitudinal direction of the device.

In addition, pile rotation calibration method using a pile rotation correction device that combines the maintenance interval and verticality of the pile according to another embodiment of the present invention, the pile rotation calibration device pile is installed on the ground to be constructed; A step of drilling a hole and inserting a file into the hole by receiving the guide of the file rotation correction device side guide means; Operating the upper and lower calibration cylinders on the calibration actuator side of the file rotation calibration apparatus to rotate and return the files generated by the upper and lower file calibration jigs to their original positions; And filling the filling material in the space between the drilling hole and the pile, wherein the upper and lower pile calibration jigs are operated on a calibration operation shaft placed at a position perpendicular to the longitudinal direction of the pile rotation calibration apparatus. .

In addition, the pile rotation correction method using a pile rotation correction device that combines the maintenance interval and verticality of the pile installation according to another embodiment of the present invention, the pile rotation correction device is installed on the ground to be casing; Guide the locating guide rod or the guide steel pipe on the pile rotary calibrating device to insert the casing after inserting the casing into the casing, and then inserting the pile into the casing, and then casting the concrete into the casing and drawing out the casing. Steps; Supplying oil pressure to the upper and lower calibration cylinders of the calibration actuator side of the pile rotation calibration device to return the rotation generated file to the original position by rotating the upper and lower pile calibration jig; Including the upper and lower pile calibration jig It is characterized in that it is operated on a calibration operation axis placed at a position perpendicular to the longitudinal direction of the device.

According to the rotation calibration device which serves as the construction of the penetration file using the guide means of the present invention and the file rotation calibration method using the same, the installation interval of the file can be set by the puncturing at the exact position by the guide means of the file rotation calibration device And the exact verticality of the pile is maintained in place.

In addition, since the upper and lower file calibration jig of the calibration actuator side installed in the file rotation calibration device is driven to return the file to the set position, a separate difficult and hard groove filling operation is unnecessary as in the related art. This has the advantage of shortening air.

In addition, a number of calibration actuators are installed in the pile rotation calibration device to perform rotation calibration of multiple piles intruded in a row at a time. The upper and lower sliding jaws have upper and lower sliding jaws for rotational calibration regardless of the type of pile. Provides an advantage that can be used.

The following drawings, which are attached in this specification, illustrate the preferred embodiments of the present invention, and together with the detailed description thereof, serve to further understand the technical spirit of the present invention. It should not be construed as limited.
1 is a front view of a rotation calibration device according to a first embodiment of the present invention.
2 is a plan view of FIG.
3A is an enlarged view of a portion of FIG. 1;
Figure 3b is an exemplary view installed by replacing the guide steel pipe to the guide means applied to Figure 3a.
4 is an enlarged view of a portion of FIG. 2;
5 is a flowchart illustrating a process of calibrating a file using a rotation calibration device according to a first embodiment of the present invention.
6 is a front view of a rotation calibration device according to a second embodiment of the present invention.
7 is a plan view of FIG.
8 is a partial plan view of FIG. 6.
9 is a partial plan view of FIG. 7.
10 is a flowchart illustrating a file calibration process using a rotation calibration device according to a second embodiment of the present invention.
11A and 11B are various construction flowcharts of a pile using a rotation correction apparatus according to the present invention.

In the following the present invention will be described in detail with reference to the embodiments shown in the accompanying drawings, but the embodiments presented are exemplary for a clear understanding of the present invention is not limited thereto.

1 and 2 and 6 and 7, according to the present invention, the pile rotation correction device 10 is inserted into the ground (5) as shown in Figures 5 and 10 pile 200 into the casing 100 is excavated ) Is used to restore the rotated state of the pile 200 resulting from the casing 12 draw after placing concrete into the interior of the casing 12. In addition, the pile rotation calibration device 10 is also applied to correct the misplaced position of the pile 200 inserted into the drilling hole drilled through the auger equipment without using the casing 100.

Here, the file 200 is applied to the H file in the embodiment, but the present invention is not limited to a specific type and may be applied to a square steel pipe file, an ACT file, and the like.

The pile rotation calibration device 10 may be implemented in two forms according to the calibration actuator 30 or 40 in which the operation shafts are formed at right angles to each other by different arrangement structures.

<First Embodiment>

1 to 5, the file rotation calibration device 10 according to the first embodiment is installed in the main frame 20, the main frame 20, the guide means for performing the set position and vertical guidance of the casing 100 And at least one calibration actuator 30 installed on the main frame 20 at regular intervals in the longitudinal direction to return the position of the pile by hydraulic pressure.

The main frame 20 is in the form of an elongated rectangular box and has a calibration operation axis Y formed in a direction perpendicular to the drilling hole axis X in the longitudinal direction, and is disposed on the ground 5 on which the casing 100 is installed. The drilling hole axis X means a vertical center axis through which the casing 12 is inserted.

The main frame 20 includes a lower frame 201, an upper frame 202 disposed on the lower frame 201, and a vertical frame 203 connecting the lower frame 201 and the upper frame 202. . The lower frame 201, the upper frame 202 and the vertical frame 203 are made of H-beams.

In the main frame 20, it is preferable that the soil inflow blocking plate 207 is installed at the circumference. The soil inlet blocking plate 207 prevents the inflow of soil to the inside of the main frame 20 when the pile rotation calibration device 10 is installed. Therefore, after installing the pile rotation correction device 10 after the excavation of the ground can be prevented from entering the soil inside the main frame 20 when backfilling around the main frame 20.

Guide means are installed in the main frame 20 to guide the installation position and spacing and verticality of the pile 200. The guide means may be composed of a locating guide rod 25 installed vertically at regular intervals around the perforation hole axis (X) as shown in Figures 3a and 4. In this case, as illustrated, the four locating guide rods 25 are positioned in contact with the circumference of the casing 100 so that the installation position of the casing 100 can be easily held, and the vertical guide when the casing 100 is inserted. Can be received.

In addition, the guide means may be composed of a guide steel pipe 125 installed in the concentric shaft and the drilling hole axis (X) as shown in FIG. At this time, the guide steel pipe 125 has an inner diameter that can accommodate the insertion of the pile (200).

The calibration actuator 30 is installed on the calibration operation shaft (Y) of the main frame 20 to generate a rotational force in the opposite direction in which the pile 200 is rotated by the hydraulic operation. In this embodiment, the calibration actuator 30 is placed in the main frame 20 in the longitudinal direction and are installed in all four places at a predetermined interval, but is not limited to these installation places.

The calibration actuator 30 includes a pair of upper and lower calibration cylinders 130 and 132, and a pair of upper and lower file calibration jigs 131 and 133.

The pair of upper calibration cylinders 130 are arranged on the upper part of the main frame 20 so as to be symmetrical with respect to the drilling hole axis X so that the working shafts coincide with the longitudinal direction of the main frame 20. The pair of lower calibration cylinders 132 are positioned downward from the pair of upper calibration cylinders 130 and at the same time are arranged to be symmetrical with respect to the drilling hole axis X so that the working shafts are coincident with the longitudinal direction. The pair of upper pile calibration jig 131 is pivotally connected to the operating ends of the pair of upper calibration cylinders 130 and 130, respectively, to be slidably movable in the longitudinal direction. The pair of upper pile straightening jig 131 has an upper sliding straightening jaw 131a is formed on the surface facing each other. A pair of lower pile calibration jig 133 is pivotally connected to the operating end of the pair of lower calibration cylinders 132, respectively, and is slidably movable in the longitudinal direction. The pair of lower pile straightening jig 133 has a lower sliding straightening jaw 133a is formed on a surface facing each other to apply the rotation force in the opposite direction rotated to the pile 200.

The main frame 20 is provided with a longitudinal jig guide 136 for linearly guiding the upper pile calibration jig 131 and the lower pile calibration jig 133, respectively.

The method and operation of the pile rotation correction apparatus 10 of the first embodiment configured as described above will be described separately according to whether the casing 12 is used.

Casing (12)  When not using

If the casing 12 is not used, it may be applied to the earth blocking method using the earth plate.

First, as shown in (a) and (b) of FIG. 11a, the pile rotation correction apparatus 10 is installed after digging in the ground 5 on which the pile is to be constructed.

Next, as shown in (c) of FIG. 11A, the drilling guide bar 25 or the guide steel pipe 125 guides the locating guide rod 25 to guide the file rotation correction device 10, and then drills the drilling hole 5a and the inside of the drilling hole. Insert the file 200. The drilling hole may be formed using the auger equipment.

Next, as shown in (d) of FIGS. 10 and 11A, the upper and lower file calibration cylinders 130 and 132 are hydraulically operated to operate the upper and lower file calibration cylinders 130 and 132 of the file rotation correction device 10. As a result, a calibration operation for rotating the generated file 200 to return to its original position is performed. At this time, the upper and lower pile calibration jig (131,133) is operated on the calibration operation axis (Y) placed in the longitudinal direction of the pile rotation calibration device (10).

Next, as shown in (e) of FIG. 11A, the filler is filled in the space between the drilling hole and the pile 200. Filler can be soil.

Thus, the pile 200 is guided through the guide means to maintain the verticality, the installation interval is set. In addition, the file rotation correction device 10 is corrected to correct the rotational position when inserted by the earthquake construction quality is improved.

Casing (12)  When to use

In the case of using the casing 12 may be applied to the CIP method or SCW method, for example.

First, as shown in Figs. 1 and 11b, the pile rotation calibration device 10 is installed on the ground on which the construction site construction pile method is to be constructed. At this time, after digging a predetermined depth in the ground as shown in (a) of Figure 11b, as shown in (b) to install the pile rotation calibration device 10 on the excavated ground, backfilling the pile rotation calibration device 10 Implement so that there is no movement of the file rotation calibration device (10).

Then, the casing 100 is introduced into the ground through the guiding of the locating guide rod 25 of the pile rotation correction apparatus 10 as shown in FIGS. 5A and 11B, and internal excavation is performed. To perform. Thereafter, the file 200 is inserted into the casing 12. Pile 200 may be a root drive.

Then, the cement milk or concrete is poured into the casing 12 as shown in Figs. 5B and 11B, and then the casing 12 is drawn out. At this time, when the casing 12 is pulled out, the pile 200 is rotated by a predetermined amount in one direction as shown in FIG. 5 (c) by friction with the concrete in the middle of the casing 12. Therefore, correction is necessary.

Then, when the hydraulic oil is supplied to the upper and lower calibration cylinders 130 and 132 of the calibration actuator 30 of the pile rotation calibration apparatus 10, the upper and lower pile calibration jigs 131 and 133 coincide with the calibration operation axis Y and drilled. It is moved toward the hole axis X. Subsequently, when the upper and lower pile calibration jigs 131 and 133 are pushed onto the pile 200, the pile 200 is rotated to its original position by the upper and lower sliding calibration jaws 131a and 133a as shown in FIG. Is returned.

Thus, according to the first embodiment, it is possible to set the rotational penetration position of the casing 12 by the pile rotation correction device 10 and at the same time can be guided when the casing 12 is inserted. In addition, the upper and lower pile calibration jig (131, 133) of the calibration actuator (30) side installed in the file rotation calibration device 10 is aligned with the calibration operation axis (Y) to move toward the drilling hole axis (X) to drive the file 200 By returning the rotation to the set position, a separate difficult and hard groove filling operation is unnecessary as in the prior art. This has the advantage of shortening air.

When the rotation calibration of the pile 200 is completed and the pile rotation correction apparatus 10 is removed, deburring is performed on the trench as shown in FIG.

Second Embodiment

6 to 10, the file rotation calibration device 10 according to the second embodiment is installed in the main frame 20, the main frame 20, the guide means for performing the set position and vertical guidance of the casing 100 And one or more calibration actuators 40 installed on the main frame 20 at regular intervals in the longitudinal direction to hydraulically return the positions of the piles.

At this time, the calibration actuator 40 is characterized in that the calibration operation shaft (Y) is installed in a direction perpendicular to the longitudinal direction of the main frame (20).

Therefore, the calibration actuator 40 includes a pair of upper calibration cylinders 140 and a pair of upper calibration cylinders 140 installed at right angles to the longitudinal direction of the main frame 20 in the same direction. A pair of upper pile calibration jigs 141 and a pair of lower calibration cylinders 142 pivotally connected to an operating end of the pair of lower calibration cylinders 142, a pair of upper calibration cylinders 140 It consists of a pair of lower pile calibration jig 143.

That is, the pair of upper calibration cylinders 140 are arranged in the main frame 20 so as to be symmetrical with respect to the hole hole axis X, and at the same time, the calibration operation axis Y is perpendicular to the longitudinal direction of the main frame 20. It is installed to be. The pair of lower calibration cylinders 142 are disposed downward from the pair of upper calibration cylinders 140 and at the same time arranged to be symmetrical with respect to the drilling hole axis X so that the calibration operation axis Y is perpendicular to the longitudinal direction. It is installed to become. The pair of upper pile calibration jigs 141 are pivotally connected to the operating ends of the pair of upper calibration cylinders 140, respectively, to be slidably movable in a length perpendicular direction, and the upper sliding calibration jaw 141a is disposed on the surfaces facing each other. ) Is formed. The pair of lower pile calibration jigs 143 are pivotally connected to the operating ends of the pair of lower calibration cylinders 142, respectively, to be slidably movable in the longitudinal direction, and the pile 200 is rotated in the opposite direction. The lower sliding correction jaw 143a is formed on surfaces facing each other to apply rotational force.

The main frame 20 is provided with a lateral jig guide 146 for linearly guiding the upper pile calibration jig 141 and the lower pile calibration jig 143, respectively.

The file rotation correction device 10 of the second embodiment configured as described above undergoes the same steps as the first embodiment as shown in FIG. 5 to perform rotation correction of the file 200.

That is, as shown in Figure 10 (a) to (d) of the casing 12 through the pile rotation calibration device 10 and the internal excavation, the concrete casting and pile 200 installation in the casing 12, the casing ( 12) and rotation correction of the upper and lower pile calibration jigs 141 and 143 by driving the upper and lower calibration cylinders 140 and 142. Of course, even if the file 200 is installed without using the casing 12 is applied in the same order as the first embodiment.

As described above, according to the second embodiment, the installation interval and verticality of the pile may be guided by the locating guide rod 25 or the guide steel pipe 125 installed in the pile rotation correction apparatus 10. In addition, the upper and lower pile calibration jig (141, 143) of the calibration actuator 40 installed in the pile rotation calibration device 10 moves toward the drilling hole axis (X) perpendicular to the calibration operation axis (Y) to pile (200) By returning the rotation to the set position is a separate difficult and difficult groove filling operation as in the prior art is unnecessary. This has the advantage of shortening air.

On the other hand, in the present embodiment, the calibration actuator 30 or 40 is configured to operate hydraulically, the present invention can be configured that the calibration actuator 30 or 40 is electrically driven.

Reference numeral '209' is the 'top cover'.

20: mainframe
25: locating guide rod
207: earth and sand intake blocking plate
30,40: calibration actuator
130,140: upper calibration cylinder
131,141: upper pile calibration jig
132,142: lower calibration cylinder
133,143: Lower file calibration jig

Claims (12)

delete In the device 10 for maintaining the spacing and verticality when installing the pile 200 embedded in the ground and correct the angle of the twisted pile 200 during the installation process,
A rectangular box-shaped main frame 20 having a calibration operation axis Y formed at right angles to the drilling hole axis X into which the pile 200 is inserted, and disposed on the ground on which the pile 200 is to be installed;
A guide unit installed in the main frame 20 to guide the drilling position and spacing of the drilling hole and maintaining the drilling verticality;
One or more calibration actuators 30 or 40 installed on the calibration operation shaft Y of the main frame 20 to rotate the twisted file 200 in the opposite direction of rotation by hydraulic or electrical operation;
The calibration actuators 30 are arranged on the upper part of the main frame 20 so as to be symmetrical with respect to the drilling hole axis X, and at the same time, the operating shafts are installed to coincide with the longitudinal direction of the main frame 20 and operated by hydraulic pressure. A pair of upper calibration cylinders 130; A pair of lower calibration cylinders 132 positioned downward from the pair of upper calibration cylinders 130 and at the same time, disposed to be symmetrical with respect to the hole hole axis X and installed so that the operating shafts coincide with the longitudinal direction; It is pivotally connected to the operating end of the pair of upper calibration cylinders (130, 130), respectively, is installed to be slidably movable in the longitudinal direction, and the upper sliding correction on the surface facing each other to apply the rotation force in the opposite direction rotated A pair of upper pile straightening jig 131 in which a jaw 131a is formed; It is pivotally connected to the operating end of the pair of lower calibration cylinder 132, respectively, is installed to be slidably movable in the longitudinal direction, the lower sliding correction on the surface facing each other to apply the rotation force in the opposite direction rotated A pair of lower pile straightening jig 133 is formed with a jaw (133a); File rotation correction device that combines the maintenance interval and verticality of the pile, characterized in that it comprises a. The method of claim 2,
The main frame 20 is further provided with a vertical jig guide 136 for linearly guiding the upper pile calibration jig 131 and the lower pile calibration jig 133, respectively. File rotary calibration device. In the device 10 for maintaining the spacing and verticality when installing the pile 200 embedded in the ground and correct the angle of the twisted pile 200 during the installation process,
A rectangular box-shaped main frame 20 having a calibration operation axis Y formed at right angles to the drilling hole axis X into which the pile 200 is inserted, and disposed on the ground on which the pile 200 is to be installed;
A guide unit installed in the main frame 20 to guide the drilling position and spacing of the drilling hole and maintaining the drilling verticality;
One or more calibration actuators 30 or 40 installed on the calibration operation shaft Y of the main frame 20 to rotate the twisted file 200 in the opposite direction of rotation by hydraulic or electrical operation;
The calibration actuator 40 is arranged on the top of the main frame 20 so as to be symmetrical with respect to the hole hole axis X, and at the same time, the calibration operation axis Y is perpendicular to the longitudinal direction of the main frame 20. A pair of upper calibration cylinders 140 installed; Located below the pair of upper calibration cylinders 140 and at the same time, disposed to be symmetrical with respect to the hole hole axis (X) so that the calibration operation axis (Y) is perpendicular to the longitudinal direction of the main frame (20). A pair of lower calibration cylinders 142; It is pivotally connected to the operating end of the pair of upper calibration cylinder 140, respectively, is installed to be slidably movable in the longitudinal direction, and the upper sliding on the surface facing each other to apply the rotation force in the opposite direction rotated A pair of upper pile calibration jig 141 in which a calibration jaw 141a is formed; It is pivotally connected to an operating end of the pair of lower calibration cylinders 142 so as to be slidably movable in the longitudinal direction, and lower slides on surfaces facing each other to apply rotational force in the opposite direction rotated. A pair of lower pile calibration jig (143) formed with a straightening jaw (143a); Pile rotation correction device that combines the maintenance interval and verticality of the pile, characterized in that it comprises a. The method of claim 4, wherein
The main frame 20 is further provided with a horizontal jig guide 146 for guiding the upper pile calibration jig 141 and the lower pile calibration jig 143, respectively. File rotation calibration device. The method according to claim 2 or 4,
Guide means is a pile rotation calibration device that combines the maintenance interval and verticality of the pile, characterized in that consisting of locating guide rods 25 installed vertically at regular intervals around the perforation hole axis (X). The method according to claim 2 or 4,
Guide means is a pile rotation correction device that combines the maintenance of the installation interval and verticality of the pile, characterized in that consisting of a guide steel pipe (125). The method according to claim 2 or 4,
The main frame 20 has a pile rotation correction device that serves to maintain the installation interval and verticality of the pile, characterized in that the soil inlet blocking plate 207 is further installed to prevent the inflow of soil around. Installing the pile rotation correction apparatus 10 on the ground on which the pile is to be constructed;
A step of drilling the hole by receiving the guide means of the file rotation correction device 10 and inserting the file 200 into the hole;
Operating the upper and lower calibration cylinders 130 and 132 on the calibration actuator 30 of the pile rotation calibration apparatus 10 to return the files 200 rotated by the upper and lower pile calibration jigs 131 and 133 to their original positions; And
Filling the filling material in the space between the drilling hole and the pile 200; including,
The upper and lower pile calibration jigs 131 and 133 are operated on the calibration operation axis Y placed in the longitudinal direction of the pile rotation calibration apparatus 10,
The calibration actuators 30 are arranged on the upper part of the main frame 20 so as to be symmetrical with respect to the drilling hole axis X, and at the same time, the operating shafts are installed to coincide with the longitudinal direction of the main frame 20 and operated by hydraulic pressure. A pair of upper calibration cylinders 130; A pair of lower calibration cylinders 132 positioned downward from the pair of upper calibration cylinders 130 and at the same time, disposed to be symmetrical with respect to the hole hole axis X and installed so that the operating shafts coincide with the longitudinal direction; It is pivotally connected to the operating end of the pair of upper calibration cylinders (130, 130), respectively, is installed to be slidably movable in the longitudinal direction, and the upper sliding correction on the surface facing each other to apply the rotation force in the opposite direction rotated A pair of upper pile straightening jig 131 in which a jaw 131a is formed; It is pivotally connected to the operating end of the pair of lower calibration cylinder 132, respectively, is installed to be slidably movable in the longitudinal direction, the lower sliding correction on the surface facing each other to apply the rotation force in the opposite direction rotated A pile rotation calibration method using a pile rotation calibration device that combines the maintenance interval and verticality of the pile, characterized in that it comprises; a pair of lower pile calibration jig (133) formed with a jaw (133a). Installing the pile rotation correction apparatus 10 on the ground on which the pile is to be constructed;
Filling the casing 100 into the casing 100 after inserting the casing 100 by performing the guide of the locating guide rod 25 or the guide steel pipe 125 on the pile rotation correction device 10, and performing the internal excavation. Performing drawing of the casing 12 afterwards;
By supplying pressure oil to the upper and lower calibration cylinders 130 and 132 of the calibration actuator 30 of the pile rotation calibration device 10, the pile 200 rotated by the upper and lower pile calibration jigs 131 and 133 is returned to its original position. Including;
The upper and lower pile calibration jigs 131 and 133 are operated on the calibration operation axis Y placed in the longitudinal direction of the pile rotation calibration apparatus 10,
The calibration actuators 30 are arranged on the upper part of the main frame 20 so as to be symmetrical with respect to the drilling hole axis X, and at the same time, the operating shafts are installed to coincide with the longitudinal direction of the main frame 20 and operated by hydraulic pressure. A pair of upper calibration cylinders 130; A pair of lower calibration cylinders 132 positioned downward from the pair of upper calibration cylinders 130 and at the same time, disposed to be symmetrical with respect to the hole hole axis X and installed so that the operating shafts coincide with the longitudinal direction; It is pivotally connected to the operating end of the pair of upper calibration cylinders (130, 130), respectively, is installed to be slidably movable in the longitudinal direction, and the upper sliding correction on the surface facing each other to apply the rotation force in the opposite direction rotated A pair of upper pile straightening jig 131 in which a jaw 131a is formed; It is pivotally connected to the operating end of the pair of lower calibration cylinder 132, respectively, is installed to be slidably movable in the longitudinal direction, the lower sliding correction on the surface facing each other to apply the rotation force in the opposite direction rotated A pile rotation calibration method using a pile rotation calibration device that combines the maintenance interval and verticality of the pile, characterized in that it comprises; a pair of lower pile calibration jig (133) formed with a jaw (133a). Installing the pile rotation correction apparatus 10 on the ground on which the pile is to be constructed;
A step of drilling the hole by receiving the guide means of the file rotation correction device 10 and inserting the file 200 into the hole;
Operating the upper and lower calibration cylinders 140 and 142 on the calibration actuator 40 of the pile rotation calibration apparatus 10 to return the files 200 rotated by the upper and lower pile calibration jigs 141 and 143 to their original positions; And
Filling the filling material in the space between the drilling hole and the pile 200; including,
The upper and lower pile calibration jigs 141 and 143 are operated on a calibration operation axis Y placed at a position perpendicular to the longitudinal direction of the pile rotation calibration apparatus 10,
The calibration actuator 40 is arranged on the top of the main frame 20 so as to be symmetrical with respect to the drilling hole axis X, and at the same time, the calibration operation axis Y is installed at right angles to the longitudinal direction of the main frame 20. A pair of upper calibration cylinders 140; Located below the pair of upper calibration cylinders 140 and at the same time, disposed to be symmetrical with respect to the hole hole axis (X) so that the calibration operation axis (Y) is perpendicular to the longitudinal direction of the main frame (20). A pair of lower calibration cylinders 142; It is pivotally connected to the operating end of the pair of upper calibration cylinder 140, respectively, is installed to be slidably movable in the longitudinal direction, and the upper sliding on the surface facing each other to apply the rotation force in the opposite direction rotated A pair of upper pile calibration jig 141 in which a calibration jaw 141a is formed; It is pivotally connected to an operating end of the pair of lower calibration cylinders 142 so as to be slidably movable in the longitudinal direction, and lower slides on surfaces facing each other to apply rotational force in the opposite direction rotated. A pair of lower pile calibration jig (143) having a correction jaw (143a); pile rotation calibration method using a pile rotation calibration device that combines the maintenance interval and verticality of the pile, characterized in that it comprises a. Installing the pile rotation correction device 10 on the ground on which the casing 12 is to be constructed;
After the guide of the locating guide rod 25 or the guide steel pipe 125 of the pile rotation correction device 10 is inserted into the casing 100 and performing the internal excavation, the pile 200 into the casing 12. Inserting and then pouring concrete into the casing 12 and then drawing the casing 12;
By supplying pressure oil to the upper and lower calibration cylinders 140 and 142 of the calibration actuator 40 of the pile rotation calibration apparatus 10, the pile 200 rotated by the upper and lower pile calibration jigs 141 and 143 is returned to its original position. Including;
The upper and lower pile calibration jigs 141 and 143 are operated on a calibration operation axis Y placed at a position perpendicular to the longitudinal direction of the pile rotation calibration apparatus 10,
The calibration actuator 40 is arranged on the top of the main frame 20 so as to be symmetrical with respect to the drilling hole axis X, and at the same time, the calibration operation axis Y is installed at right angles to the longitudinal direction of the main frame 20. A pair of upper calibration cylinders 140; Located below the pair of upper calibration cylinders 140 and at the same time, disposed to be symmetrical with respect to the hole hole axis (X) so that the calibration operation axis (Y) is perpendicular to the longitudinal direction of the main frame (20). A pair of lower calibration cylinders 142; It is pivotally connected to the operating end of the pair of upper calibration cylinder 140, respectively, is installed to be slidably movable in the longitudinal direction, and the upper sliding on the surface facing each other to apply the rotation force in the opposite direction rotated A pair of upper pile calibration jig 141 in which a calibration jaw 141a is formed; It is pivotally connected to an operating end of the pair of lower calibration cylinders 142 so as to be slidably movable in the longitudinal direction, and lower slides on surfaces facing each other to apply rotational force in the opposite direction rotated. A pair of lower pile calibration jig (143) having a correction jaw (143a); pile rotation calibration method using a pile rotation calibration device that combines the maintenance interval and verticality of the pile, characterized in that it comprises a.

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