KR101523013B1 - Cutting apparatus for foudation ring hole - Google Patents

Abstract

The present invention relates to a circumferential groove cutting apparatus capable of forming a perforation hole in a base and fixing a lower portion of a reaction force applying body for press fitting to a circumferential groove formed in a side surface of the perforation hole, A circumferential groove cutting device including an electric motor, a lifting body, a support rack, a horizontal bit, and a rotating boom arm having a rotary knob and a rotary shaft fixedly fixed around a perforation hole formed in advance, Thereby forming a circumferential groove.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a cutter apparatus for cutting a circular groove,

The present invention relates to a circumferential groove cutting apparatus. More specifically, the present invention relates to a circumferential groove cutting device capable of forming a perforation hole in a base and fixing a lower end of a reaction force applicator for punching into a circumferential groove formed in a side surface of the perforation hole.

FIGS. 1A through 1F are schematic views showing a construction for reinforcing a foundation of a structure by installing a file on a foundation of a conventional structure.

First, as shown in FIGS. 1A and 1B, since the foundation is generally made of concrete, only the foundation 10 is cored by using a drilling machine (excavator) to form the perforation hole 20.

The lower part of the perforation hole 20 is formed as a ground 30 on which a structure is located. The lower part of the perforation hole 20 is divided into various areas such as a soil layer, a weathering- And it exists in the ground state.

In this case, since it is difficult to bring the steel pipe pile 40 to the foundation for reinforcement of the foundation bottom steel pipe, the steel pipe pile 40 is usually taken as a segment (1-1.5 m), and the segmented steel pipe pile 40 is placed on the ground 30 using a press-fitting means 50 such as a hydraulic jack.

First, as shown in Fig. 1C, a reaction force body 60, which can be provided with a press-in means 50, which is a hydraulic jack having a capacity enough to press the steel pipe file 40, is provided on the peripheral bottom surface of the perforation hole 20 And is installed to extend to the upper portion of the perforation hole 20.

As shown in FIG. 1C, the reaction force body 60 includes a plurality of anchor rods 61 and 62 connected thereto by a connection nut 63, and a fixing plate 64 is mounted on a lower end of the anchor rod 62 And the upper end of the anchor rod 61 is fixed to the upper surface and the lower surface (not shown) of the reaction force plate 65 by a fastening nut 66.

The anchor rods 61 and 62 are connected by the connecting nut 63 in consideration of the length of the hydraulic cylinder constituting the hydraulic jack which is the press fitting means 50, So as to avoid the restriction due to the limited space of the foundation.

1D, a steel pipe file 40 such as a steel pipe file is inserted into the perforation hole 20, and a press-fitting operation is performed between the upper end of the steel pipe file 40 and the reaction force plate 65 constituting the reaction force body 60, And the hydraulic cylinder 51 is supported by the reaction plate 65 while the hydraulic cylinder 51 extends upward so that the steel pipe pile 40 is supported on the ground 30 by the reaction force So as to be downwardly press-fitted. Thus, the steel pipe pile 40 is press-fitted into the support layer A at the bottom of the final ground so that the required supporting force can be ensured.

Next, as shown in FIG. 1E, the anchor rods 61 and 62 constituting the reaction force body 60 and the steel pipe file 40 are integrated with each other in a manner of welding to fix the steel pipe file 40 to the foundation. That is to say, installing a new file on the base.

Next, the anchor rods 61 and 62 and the reaction force plate 65 are disassembled by unscrewing the connection nut 63 and a separate fixing plate 70 is installed on the upper inner side of the perforation hole 20, The upper ends of the cut anchors 61 and 62 are fastened to the fixing plate 70 by using the fastening nuts 80.

Finally, as shown in FIG. 1F, a filling material such as non-shrinkable mortar or the like is filled in the perforation hole 20 to finish the upper surface of the foundation to complete the basic reinforcement.

At this time, the reaction force body 60 may be installed on the base 10 to be attached to the bottom bottom surface of the perforation hole 20 so as to be hooked on the bottom of the perforation hole 20, 1 m or more), when the lower end of the reaction force is provided on the base bottom surface, the workability is significantly lowered as the number of portions of the worker that do not reach the working range increases.

2A, the lower end of the reaction force body 60 is formed in the middle of the perforation hole 20 formed on the base 10 rather than on the base bottom, and the reaction force 60 is applied to the circumferential groove 21, And a lower fixation plate formed at the lower end of the stand is inserted and supported so as to install a reaction force body.

In this case, the work of forming the circumferential grooves 21 in the concrete foundation 10 is not economical and workable as manpower, and the cutting apparatus is used. FIG. 2b shows a cutting apparatus 90 for forming the conventional circumferential groove 21 .

The cutting device 90 for forming the circumferential groove 21

An electric motor 90a having a tool 92 for machining the circumferential groove 21 of the perforation hole 20 at the end of the rotary shaft 91;

A lifting body 90b coupled to one side of the electric motor 90a and accommodating the support rack 93 therein such that the electric motor 90a is lifted by the support rack 93;

A supporting rack 90c coupled with the lifting body 90b to support the lifting body 90b and to guide the lifting body up and down along a rack formed on one side;

A flow plate 90d which is coupled to the lower end of the support rack 93 and has a plurality of feed balls 94 formed on the bottom surface of the plate body formed with an upper machining hole with a predetermined diameter so as to penetrate the pivot shaft 91 in the center, )and;

A transfer ball 94 of the flow plate 90d is provided on a top surface of a plate-like body which is provided at a lower portion of the flow plate 90d and which forms a lower processing hole having a predetermined diameter through which the rotation axis passes, And a fixing plate 90e configured to accommodate the transfer ball 94 in correspondence with the transfer ball 94 and to constitute a circular guide portion 95 guiding the moving distance of the transfer ball 94. [

That is, the tool 92 (a kind of disk-shaped bit), which receives the rotational force of the electric motor 90a while the flow plate 90d moves on the inner circumferential surface of the circular guide portion 95 of the fixed plate, The groove 21 may be formed on the inner peripheral surface of the perforation hole 20 of the base 10

Although such a device has its efficiency, it is necessary to set the cutting device 90 for forming the circumferential groove 21 in the upper part of the perforation hole, and the configuration is somewhat complicated, so that it is not easy to secure economical efficiency of production.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and an object of the present invention is to provide a cutting apparatus for a circumferential groove, which is capable of easily forming a circumferential groove on a side surface of a perforation hole formed in a base,

According to an aspect of the present invention,

First, a circumferential groove cutting including an electric motor, a lifting body, a support rack, a horizontal bit, and a rotating boom bar having a rotary knob and a rotary shaft in a fixedly fixed rotary boom around a perforation hole formed on the base of a circumferential groove cutting device The device is mounted to form a circumferential groove on the side surface in the perforation hole.

That is, the elevating body of the circumferential groove cutting apparatus is equipped with a rotary knob. The operator holds the rotary knob and holds the horizontal bit at a position where the circumferential groove is to be formed on the inner side of the perforation hole. .

Second, the rotary boom fixing device includes a boom bar fixing device fixedly mounted on the upper surface of the foundation, and a fixing rotary boom bar hinged between the boom bar fixing device and the rotary boom bar of the circumferential groove cutting device, The boom bar is horizontally folded or unfolded to enable horizontal rotation of the circumferential groove cutting device.

The circumferential grooved cutting apparatus according to the present invention is divided into a rotary boom fixing device and a circumferential groove cutting device so that they are hinged to each other so that they can be easily assembled and installed so that a circumferential groove can be formed easily by a rotary knob by an operator, Circumferential groove construction becomes possible.

That is, the operator can easily form the circumferential groove on the side surface in the perforation hole by driving and rotating the circumferential groove cutting device without any other efforts and techniques.

FIGS. 1A-1F are flow diagrams of a method of constructing a file on a foundation of a conventional structure to reinforce the foundation of the structure,
FIG. 2A is a construction sectional view of a foundation having a circumferential groove formed on a conventional inner surface,
FIG. 2B and FIG. 2C are sectional views of a conventional cutting apparatus for forming a circumferential groove for forming a circumferential groove on the inner surface of a foundation,
FIGS. 3A and 3B illustrate construction and construction of a cutting device for a circumferential groove according to the present invention;
FIGS. 4A, 4B, 4C, 4D, and 4E are diagrams illustrating an operation of a circumferential groove cutting apparatus according to the present invention,
FIGS. 5A, 5B and 5C are a perspective view or a cross-sectional view of a reaction force applying body by a circumferential groove using a circumferential groove cutting apparatus according to the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings, which will be readily apparent to those skilled in the art. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In order to clearly illustrate the present invention, parts not related to the description are omitted, and similar parts are denoted by like reference characters throughout the specification.

Throughout the specification, when an element is referred to as "comprising ", it means that it can include other elements as well, without excluding other elements unless specifically stated otherwise.

[Circumferential Groove Cutting Device (100) of the Present Invention)

FIGS. 3A and 3B are exploded perspective views of a construction apparatus 100 for a circumferential groove according to the present invention.

3A, the circumferential grooved cutting apparatus 100 according to the present invention includes a rotary boom securing apparatus 110 and a circumferential groove cutting apparatus 120, The rotary knob 124 is set so that the horizontal bit 123 contacts the inner surface of the perforation hole 210 formed in the base 200 and is initially cut. So that the circumferential groove 220 is cut while being horizontally rotated along the inner surface. This will be described in detail with reference to FIGS. 4A to 4E.

3A and 3B, the rotary boom fixing device 110 includes a boom bar fixing device 111 and a fixed rotary boom bar 112. [

The boom frame fixing device 111 includes a fixing plate 111a and a vertical support 111b on which a hinge bracket 111c is mounted.

3A and 3B, a plurality of anchor holes are formed. When the anchor holes are fastened to the upper surface of the anchor hole with an anchor bolt using a T-shaped jig, So that it can be installed on the upper surface of the base 200 in a detachable manner.

That is, as shown in FIG. 3B, the fixing plate 111a is fixed to the upper surface around the perforation hole 210 of the base 200 using an anchor bolt or the like.

The vertical support 111b may be a rectangular steel pipe and serves as a support for mounting the hinge bracket 111c on the outer circumferential surface thereof with a fastener such as an anchor bolt.

The hinge bracket 111c is formed with a hinge portion 111d having a pinhole extending horizontally at one side of a body portion to be mounted with an anchor bolt on the outer peripheral surface of the vertical support 111b.

So that the pin is inserted into the pinhole, and the fixing swing platform 112 is hinged to the pin.

The fixing rotary boom base 112 is a boom member in the form of a vertical plate that is connected to the boom base fixing apparatus 111 by pins and is horizontally rotatable as shown in FIGS. 3A and 3B.

Thus, it can be seen that the hinge hole 112a is formed at one side of the fixing swing platform 112, and the hinge 112d having the pin hole is formed at the other side.

Therefore, it can be seen that the boom bar fixing device 111 and the fixing boom bar 112 of the present invention are easy to install, can be carried easily, and can be assembled by pins, so that operation and installation are very simple.

Next, the circumferential groove cutting apparatus 120 includes an electric motor 122, a horizontal bit 123, and a rotary shaft 121 as shown in FIGS. 3A and 3B. A lifting body 125 on which the rotary knob 124 is mounted, a support rack 126, and a rotary boom base 127. [

The rotary boom base 127 of the circular groove cutting apparatus 120 is hinged to the rotary boom base 112 for fixing the rotary boom securing apparatus 110 described above.

First, the electric motor 122 is manufactured by including a driving motor (not shown). The electric motor 122 rotates the pivot shaft 121 by a rotational force of the electric power. The electric motor 122 is mounted on the lower end of the pivot shaft 121 The inner surface of the base is cut by the rotation of the horizontal bit 123 by rotating the horizontal bit 123 so that the circumferential groove 220 can be formed.

The lifting body 125 is integrally formed on one side of the electric motor 122 and is provided with a support rack 126 passing through the inside thereof.

Accordingly, the lifting body 125 can move upward and downward along the support rack 126, so that the upper and lower setting of the horizontal bit 123 enables upper and lower construction according to the formation position of the circumferential groove.

The upward / downward movement (elevation, hereinafter the same) of the lifting body 125 can be manually operated by the operator using the rotary knob 124 manually.

The support rack 126 is vertically extended on the surface of the vertical pipe shape so that the rack gear mounted on the rotary knob is vertically moved along the rack so that the vertical movement of the lifting body can be performed stably .

The rotary boom table 127 extends horizontally integrally with the lower end of the support rack 126 and is a boom member in the form of a vertical plate and has a hinge portion 112d formed with a pinhole formed on the other side of the fixed rotary boom table 112, And a hinge portion 127d having a pin hole formed at an end of the hinge 127d so as to enable the hinge connection by the pin.

As a result, it can be seen that the rotary boom base 127 and the fixing rotary boom base 112 are hingedly connected to each other horizontally, and they are horizontally folded or unfolded so as to enable horizontal rotation of the circular groove cutter 120 do.

[Circumferential Groove Construction Using Circumferential Groove Cutting Device 100 of the Present Invention]

4A to 4E are plan views showing the construction sequence of the circumferential groove 220 using the circumferential groove cutting apparatus 100. That is, the circumferential grooves 220 are hinged to the rotary boom fixing apparatus 110, 120 in the circumferential grooves by the horizontal rotation of the circumferential grooves.

First, as shown in FIG. 4A, the rotary boom securing apparatus 110 previously shown on the upper surface of the foundation 200 is fixedly fixed using an anchor bolt.

At this time, the horizontal bit 123 of the circumferential groove cutting apparatus 120 is set to an initial setting (partially cut) at a point 1 side in the perforation hole of the foundation, and the rotary biting board 112 And the rotary boom base 127 of the hinge connected circular groove cutting apparatus 120 are folded to face each other.

The worker first fixes the rotary boom fixing device 110 to the foundation 200 and connects the fixing rotary boom base 112 to the rotary boom fixing device 110 with the pins, And the rotary boom 127 of the rotary boom fixing device 110 is connected to the rotary boom 127 by a pin.

This initial setting is such that the operator places the lift handle 124 on the lifting body 125 so that the horizontal bit 123 is positioned where the circumferential groove 220 is to be formed to secure the lifting body 125 to the support rack 126 As shown in Fig.

The horizontal bit 123 is horizontally rotated (counterclockwise) on the inner surface of the perforation hole to form the circumferential groove 220. This horizontal rotation is performed by the horizontal rotation of the rotary boom securing device 110 and the horizontal Cutting. Since the horizontal cutting of the horizontal bit is performed by operating the power switch of the electric motor 122 and rotating the rotary shaft, the horizontal rotation (horizontal rotation in the counterclockwise direction for forming the circumferential groove) will be described below.

That is, as shown in FIG. 4B, when the operator rotates the rotary boom fixing device 110 horizontally in the direction of forming the circumferential groove by using the rotary knob 124 to wrap the lid integrated on the upper surface of the canned food, The fixing rotary boom base 112 of the apparatus 110 and the rotary boom base 127 of the circular groove cutting apparatus 120 are spread out by a certain angle B1.

This is because the rotary boom table 127 is hingedly connected to the fixed rotary boom table 112 so that the horizontal rotation is not constrained.

In this horizontal rotation, the horizontal bit 123 continues to rotate to form the circumferential groove 220 to the A1 position.

Next, as shown in FIG. 4C, when the operator rotates the rotary boom fixing device 110 horizontally in the circumferential groove forming direction by using the rotary knob 124, the worker folds the rotary boom fixing device 110 The rotary boom table 112 and the rotary boom table 127 of the circular groove cutting apparatus 120 are further unfolded and further expanded by a certain angle B1 + B2.

In this horizontal rotation, the horizontal bit continues to rotate to form the circumferential groove to the position A2. However, according to FIG. 4c, the circumferential groove is formed to be approximately half of the circumferential groove.

When the rotary boom fixing device 110 is horizontally rotated in the circumferential groove forming direction by using the rotary knob 124 as shown in FIG. 4d, the fixing rotary boom base 112 of the rotary boom fixing device 110, It can be seen that the rotating boom rods 127 of the grooved cutter 120 are folded to each other (when the folding starts, the angle is indicated by "-") to form a certain angle (B1 + B2-B3).

In this horizontal rotation, the horizontal bit 123 continues to rotate to form a circumferential groove up to the A3 position, but according to FIG. 4d, about 3/4 of the circumferential groove is formed.

4E, the rotary boom securing device 110 is horizontally rotated in the circumferential groove forming direction by using the rotary knob 124, and the rotary boom bar 112 for fixing the rotary boom securing device 110, When the rotary boom 127 of the apparatus 120 is completely folded back and returned to the circular state, the horizontal bit 123 is rotated one turn (B1 + B2-B3-B4 = 360 degrees) .

In this horizontal rotation, the horizontal bit 123 returns to the initial setting position to form the circumferential groove to the A4 position, and according to FIG. 4E, the circumferential groove is completed in a circular shape.

Thus, it can be seen that the worker can work the circumferential groove by cutting the horizontal bit by the horizontal bit only by horizontally rotating the rotary boom fixing device 110 with ease.

[The reaction force body (500) provided in the circumferential groove of the present invention and the pile fixing device (600) using the support tube)

5A and 5B are cross-sectional views showing an example of installing a pile fixing device 600 using a reaction force body 500 using a guide rail and a support tube at a deep base.

That is, the case where the circumferential groove 220 is separately formed in the middle of the perforation hole 210 formed in the base 200, and the lower fixation plate 630 is inserted into the circumferential groove 220.

In this case, it is the reaction force body 500 using the guide rail 510 to form the perforation hole 210 in the foundation 200 and to press the pile 300 into the lower ground of the perforation hole 210, The file fixing device 500 is supported on the bottom surface of the base 200 and the file fixing device 600 is used to fix the pile head to the base 200 when the pile pressing is completed.

5A and 5B, when the base 200 has a deep base, the perforation hole 210 is formed. In this case, the base 200 is formed of reinforced concrete, A great effort, time, and cost are required.

As shown in FIG. 5A, a pile fixing apparatus 600 using a supporting tube is first installed on a deep foundation 200, and a lower fixing plate (not shown) formed on a lower end of an anchor rod 610, which constitutes a pile fixing apparatus 600 using a supporting tube, (630) is inserted and supported in the circumferential groove (220) formed in the middle of the perforation hole (210) of the base (200)

A reaction force body 500 using a guide rail for press-fitting the pile 300 is connected to the upper end of the anchor rod 610 of the pile fixing device 600,

When the file press-fitting is completed, the reaction force body 500 using the guide rail is disassembled from the pile fixing device 600 using the supporting pipe, and the pile fixing device 600 using the remaining supporting pipe is further top- And the file 300 is fixed on the base using the plate.

5A and 5B, the pile fixing device 600 using the support tube is constructed by an anchor rod 610, an upper fixation plate 620, a lower fixation plate 630, a fixing nut 640, 650).

First, the anchor rod 610 is made of a steel bar member having threads formed on the outer circumferential surface so as to be fastened to the guide rail 510. The upper end portion of the anchor rod 610 is connected to the guide rail 510 of the reaction force body 500, A fixing plate 630 is formed.

The anchor rod 610 is inserted into the perforation hole 210 formed in the base 200. The upper end of the anchor rod 610 is extended so as to protrude upward from the base and the lower fixation plate 630 formed at the lower end thereof is inserted into the perforation hole 210, And is inserted and supported in the groove 220.

The upper fusing plate 620 is installed after the file 300 is fully inserted and is installed inside the perforation hole 210 and is fixed to the upper end of the anchor rod 610 by a fixing nut 640. The upper fusing plate 620 may be a plate such as a circular plate made of, for example, a steel material. The center hole may be used as a hole for grouting material injection, and an anchor hole may be formed around the center hole to directly penetrate the anchor rod.

The top of the pile 300 is fixed to the bottom of the upper fixing plate 620 by welding and the head of the anchor rod 610 is fixed by the fixing nut 640.

The pile 300 fixed to the upper fusing plate 620 and the anchor rod 610 are positioned inside the perforation hole 210 of the foundation 200.

5B, the lower fixation plate 630 is inserted into and supported by a circumferential groove 220 formed at a substantially central portion of the base 200 as a plate member horizontally extending to the lower end of the anchor rod 610 Able to know.

The circumferential groove 220 may be formed as a groove having a constant thickness along the inner circumferential surface of the base 200 by using the circumferential groove cutting device 100 of the present invention.

The lower fixation plate 630 may be formed of four arcuate horizontal plates so as to be horizontally inserted into the circumferential grooves 220.

The anchor holes 631 are formed in the lower fixation plate 630 so that the anchor rods 610 can be simply passed through.

That is, the lower fixing plates 630 in the form of four horizontal plates are fastened to the lower ends of the anchor rods 610 in advance so that they are easily integrated with each other.

Thus, the anchor rod 610 and the lower fixation plate 630 can be assembled and disassembled very easily, thereby enabling quick installation.

Particularly, since the file fixing device 600 is provided with a plurality of anchor rods, it is a very useful means for quickly installing a plurality of lower fixing plates 630 at the lower ends of the respective anchor rods.

The file fixing apparatus 600 using the support tube is configured such that the load transferred from the file 300 is transmitted to the upper fixation plate 620 and the anchor rod 620 fixed to the upper fixation plate 620 by the fixing nut 640 The load transferred to the anchor rod 610 is transmitted to the lower fixation plate 630 and a part of the load is inserted into the circumferential groove 220 formed in the middle of the base 200, It can be seen that the load transferred to the lower fixing plate 630 exposed to the perforation hole 210 is dispersed in the middle of the foundation.

At this time, there is a case where the lower fixation plate 630, which is to be located in the circumferential groove 220 of the base, is separated from the base bottom because there is no support in the space inside the lower fixation plate 630 during the load transfer process. The support tube 650 is disposed between the inner side of the lower fusing plate 630 to prevent such detachment.

The support pipe 650 may be made of a steel pipe or the like so as to contact the lower fixation plate 630 in an inner space (inside the perforation hole) of the lower fixation plate 630 to prevent displacement of the lower fixation plate 630 And it can be seen that the support pipe 650 has the pile 300 disposed therein.

In addition, the file 300 is a tubular member having a predetermined diameter such as a steel pipe file, and is used to fill a grouting material therein. The grouting material 400 is passed through a center hole of the upper fixation plate 620 And is injected into the steel pipe file by using a compressor, a packer, a grouting hose or the like not shown.

At this time, a grouting hole 320 is formed in the file, so that the grouting material injected is forcibly grouted out of the file, and the packer 330 is used for grouting.

The packer includes a tubular body 331 and a grouting hose 332 installed in the tubular body. The grouting material inserted into the pile is fed into the steel pipe through the grouting hose and grouted on the ground outside the final steel pipe file.

Thus, the file 300 of the present invention is effective in securing the bearing capacity by providing both the frictional force between the outer peripheral surface of the steel pipe file and the ground, the friction pile due to the pile end supporting force, and the tip supporting pile function.

5A, the reaction force body 500 using the guide rail 510 includes a guide rail 510, a guide rail fixing plate 520, a pressing means 540 integrated with the reaction force plate 530, The file fixing device 600 may be installed on the base 200 and then connected to the upper end of the anchor rod 610 of the file fixing device 600.

That is, the guide rail 510 is a steel bar member such as the anchor rod 610. The lower end portion of the guide rail 510 is formed as a socket portion having a thread formed on the inner surface thereof so as to be connected to the anchor rod and connected thereto. A screw thread is formed on the outer circumferential surface so as to be fastened.

In addition, a plurality of horizontal hole-shaped pinholes 511 are vertically spaced apart so that the support pins 550 can be held horizontally.

The guide rail 510 serves as a guide member so that the press-in means 540 integrated with the reaction plate 530 can be lowered downward along the guide rail. The guide rail 510 includes a pin hole 531 formed in the reaction plate 530, The pushing means 540 integrated with the reaction force plate 530 can be fixed to the guide rail by the support pin 550 passing through the pinhole 511 of the rail 510. [

Next, the guide rail fixing plate 520 is also used to fix the upper end of the guide rail 510 to maintain its shape, and a plate such as a circular plate is used. The guide rail fixing plate 520 is fixed by a fixing nut through the guide rail 510 A plurality of guide rail holes 521 are formed.

Next, the press-fitting means 540 integrated with the reaction force plate 530 is used to press the file 300 up or down along the guide rail 510. [

The reaction force plate 530 has a guide rail receiving portion 532 formed therein so that the guide rail can be inserted into the outer periphery of the reaction force plate 530. The reaction force plate 530 can be easily moved up and down along a guide rail 510 provided to pass through the guide rail receiving portion 532 It becomes movable.

For example, the reaction force plate 530 uses a plate of the sperm shape in which the guide rail receiving portion 532 is formed along the outer periphery.

The reaction force plate 530 integrally formed on the bottom surface of the reaction force plate 530 is a push-in means 540, and the upper surface of the pile can be press-fitted downward by a stroke of a cylinder extending downward.

At this time, a pin hole is formed in the guide rail receiving portion 532 of the reaction force plate 530. The support pin 550 passing through the pin holes in a state where the pin hole of the reaction plate and the pin hole of the guide rail 510 are communicated with each other, The pressing means 540 integrated with the reaction force plate 530 is fixed to the guide rail.

5A, when the press-in means 540 is operated, the reaction plate 530 is fixed to the guide rail 510, so that it is possible to press-fit the file by the reaction force, 600, it is possible to resist the reaction force.

As a result, the pile 300 is gradually press-fitted into the bottom of the foundation 200 via the perforation hole 210 by the operation of the press-in means 540. Since the press-in pile is moved downward, The pushing means 540 integrated with the reaction force plate 530 must also be lowered to the upper surface of the moved file.

The support pins 550 inserted into the pinholes of the guide rail 510 and the reaction force plate 530 are pulled out so that the pressing means 540 integrated with the reaction force plate 530 is lowered by the weight along the guide rail The pushing means 540 integrated with the reaction force plate 530 is reset to the guide rail by using the support pin.

The re-setting operation of the press-in means 540 integrated with the reaction force plate 530 may be repeated until the final file press-in can be completed.

When the pressing of the file 300 is completed, the head of the file 300 is positioned in the extension space at the upper end of the inside of the hole of the base 200, and the head of the file is fixed to the base 200 Respectively.

To this end, the lower end of the guide rail 510 and the anchor rod 610 of the pile fixing device 600 are separated from each other,

The upper fixing plate 620 is fastened and fixed to the upper end of the exposed anchor rod with a fixing nut and the upper surface of the pile 300 is welded to the bottom surface of the upper fixing plate 620 to be finally finished.

At this time, preferably, a space between the anchor rod 610 and the outer peripheral surface of the pile 300 that is a rechargeable file is filled in the upper portion of the support pipe 650 to further improve the stability of the pile fixing device 600 using the support pipe It is possible to secure more.

Further, when the upper fusing plate 620 is installed, the non-shrinkage mortar is injected into the final piercing hole to finish the piercing hole.

Further, as shown in FIG. 5C, the file 300 of the present invention includes not only a steel pipe but also a micro file. That is, it can be said that the microfiles 300 are fixed to the circumferential grooves 220 formed on the base 200 by using the upper fixing plate.

5C, an anchor rod 610, an upper fusing plate 620, a lower fusing plate 630, a fixing nut 640, and a support member 640 are fixed to the upper and lower fixing plates 630 and 630, respectively. It also includes a lyso 650.

The upper fixing plate 620 is fixed by the fixing nut 640 and the lower fixing plate 630 is formed at the lower end of the anchor rod 610 .

The upper fixing plate 620 is made of a plate made of a steel material such as a circular plate or a rectangular plate so that the pile 300 is passed through the center hole 621 and the anchor holes 622 Is also formed to allow the anchor rod 610 to pass therethrough.

Thus, the head portion (upper end) of the pile 300 is fixed by the lock nut, and the head portion of the anchor rod 610 is fixed by the fixing nut 640.

The pile 300 fixed to the upper fusing plate 620 and the anchor rod 610 are positioned inside the perforation hole 210 of the foundation 200.

Next, the lower fusing plate 630 is inserted into the circumferential groove 220 in the middle of the perforation hole. The lower fixation plate 630 is installed to be inserted into and supported by the circumferential groove 220 formed at the substantially central portion of the base 200 as a circular plate member horizontally extending at the lower end of the anchor rod 610 .

The circumferential groove 220 may be formed as a groove having a uniform thickness along the inner surface of the base 200 by using the circumferential groove cutting apparatus 100 of the present invention.

It can be seen that the lower fixation plate 630 is formed of two semicircular flat plates to be horizontally inserted into the circumferential grooves 220.

The anchor holes 631 are formed in the lower fixation plate 630 so that the anchor rods 610 can be simply passed through. That is, the lower fixing plates 630 in the form of two horizontal plates are fastened to the lower ends of the anchor rods 610 in advance so as to be integrated with each other. Thus, the anchor rod 610 and the lower fixation plate 630 can be assembled and disassembled very easily, thereby enabling quick installation.

Since the upper fixing plate 620 is provided with a plurality of anchor rods, it is a very useful means for quickly installing a plurality of lower fixing plates 630 at the lower ends of the respective anchor rods.

The file fixing apparatus 600 using the support tube is configured such that the load transferred from the file 300 is transmitted to the upper fixation plate 620 and the anchor rod 620 fixed to the upper fixation plate 620 by the fixing nut 640 The load transferred to the anchor rod 610 is transmitted to the lower fixation plate 630 and a part of the load is inserted into the circumferential groove 220 formed in the middle of the base 200, It can be seen that the load transferred to the lower fixing plate 630 exposed to the perforation hole 210 is dispersed in the middle of the foundation.

At this time, there is a case where the lower fixation plate 630, which is to be located in the circumferential groove 220 of the base, is separated from the base bottom because there is no support in the space inside the lower fixation plate 630 during the load transfer process. The invention places the support tube 650 between the inside of the lower fusing plate 630 to prevent such deviation.

The support pipe 650 may be made of a steel pipe or the like so as to contact the lower fixation plate 630 in an inner space (inside the perforation hole) of the lower fixation plate 630 to prevent displacement of the lower fixation plate 630 And it can be seen that the support pipe 650 has the pile 300 disposed therein.

It will be understood by those skilled in the art that the foregoing description of the present invention is for illustrative purposes only and that those of ordinary skill in the art can readily understand that various changes and modifications may be made without departing from the spirit or essential characteristics of the present invention. will be. It is therefore to be understood that the above-described embodiments are illustrative in all aspects and not restrictive. For example, each component described as a single entity may be distributed and implemented, and components described as being distributed may also be implemented in a combined form.

The scope of the present invention is defined by the appended claims rather than the detailed description and all changes or modifications derived from the meaning and scope of the claims and their equivalents are to be construed as being included within the scope of the present invention do.

100: Circumferential groove cutting device
110: rotating boom fixing device
111: Boom bar fixing device
111a: Fixing plate 111b: Vertical support
111c: a hinge bracket 111d: a hinge region
112: Fixing rotary boom
112a: Hinge hole 112d: Hin district
120: Circumferential groove cutting device
121: Pivot shaft 122: Electric motor
123: horizontal bit 124: rotary knob
125: lifting body 126: supporting rack
127: Revolving boom 127d: Hin district
200: Foundation
210: Perforation hole 220: Circumferential groove
300: File
500: Reaction body using guide rail
510: guide rail
520: guide rail fixing plate 530: reaction force plate
540: press-in means 550: support pin
600: File fixing device using supporting tube
610: Anchor rod 620: Upper fixing plate
630: Lower fixation plate
640: Fixing nut 650: Supporting tube

Claims (5)

An electric motor 122 mounted with a pivot 121 formed at a lower end of a horizontal bit 123 for forming the circumferential groove 220; The motor is coupled to one side of the support rack. The support rack is formed to penetrate through the support rack. The rack gear mounted on the support knob is engaged with the rack formed on the support rack. A lifting body 125 which is lifted and lowered along the support rack by the rotary knob and a hinge 127d which is a boom member extending horizontally and integrally at the lower end of the support rack 126 and having pinholes at the extended end thereof, A circumferential grooved cutting device 120 including an integrally formed rotary swing table 127; And a swiveling rotary boom unit 112 hinged to the hinge section 127d of the rotary boom unit 127 and a boom station fixing unit 111 hinged to the rotary rotary boom unit 112 and fixedly fixed to the upper surface of the rotary unit The operator rotates the circumferential groove cutting apparatus 120 hinged to the rotary boom securing apparatus 110 fixedly fixed on the base upper surface by using the rotary knob 124 to rotate horizontally A circumferential groove 220 is continuously formed on the inner surface of the perforation hole 210 of the base 200,
The reaction force body 500 using the guide rail used for constructing the basic reinforcing pile installed to be supported by the circumferential groove 220 formed on the inner side surface of the base 200 is formed so that the lower end thereof is supported in the circumferential groove formed in the base bottom surface or in the middle A guide rail 510 connected to an upper end of an anchor rod 610 of a pile fixing device 600 including an anchor rod to be installed and having a plurality of pinholes connected to the upper end of the anchor rod 610 and extending upward; A reaction force plate 530 having a plurality of guide rail receiving portions formed with pinholes on the outer periphery thereof so as to move upward or downward along the guide rails, and pressing means 540 integrated with the bottom surface of the reaction force plate; And a support pin (550) inserted in a pinhole formed in a guide receiving portion of a reaction force plate arranged to communicate with a pinhole of a guide rail to position and fix a pressing means integrated with a reaction plate on the guide rail, Wherein the support pin is pulled out so that the press-in unit integrated with the reaction force plate can freely move up and down along the guide rail. The method according to claim 1,
The boom bar fixing device 111 includes a fixed plate 111a and a vertical support 111b on which a hinge bracket 111c is mounted,
The fixing plate 111a is installed in the form of a horizontal plate so as to be detachable from the upper surface of the base 200,
The vertical support 111b has a hinge bracket 111c as a fastener on the outer peripheral surface thereof,
Wherein the hinge bracket 111c is formed with a hinge portion 111d having a pinhole extending horizontally at one side of a body mounted on an outer circumferential surface of the vertical support 111b. 3. The method of claim 2,
The stationary swing platform 112
A hinge hole 112a is formed on one side of the boom frame fixing device 111 so as to be connected to the boom frame fixing device 111 so as to be horizontally rotatable and is connected to the boom frame fixing device 111 by a pin, And is connected to the hinge portion 127d of the rotary boom 127 by a pin,
The rotating boom table 127 is a boom member that extends horizontally and integrally to the lower end of the support rack 126 and has a pin hole formed therein so as to be connected to the hinge region 112d of the fixing rotary boom table 112, 127b and 127d are formed so that the rotary boom base 127 and the fixed rotary boom base 112 are horizontally hinged to each other so that they can be horizontally folded or unfolded to enable horizontal rotation of the circumferential groove cutter 120 A cutting device for a circular groove. delete The method according to claim 1,
The file fixing device 600 includes
And the upper end of the upper fixing plate 620 is fixed by a fixing nut 640 and the lower end of the anchor rod 610 is formed with a lower fixing plate 630;
An upper fusing plate 620 through which the pile 300 is inserted in the center hole 621 and an anchor hole 622 is formed around the center hole 621 so that the anchor rod 610 is penetrated;
A lower fixation plate 630 which is inserted into the circumferential groove 220 in the middle of the perforation hole and extends horizontally to the lower end of the anchor rod 610 and is inserted and supported in the circumferential groove 220;
And a support pipe 650 contacting the lower fixation plate 630 in the space between the inner side of the lower fixation plate 630 and the pile 300 disposed inside the lower fixation plate 630
The load transferred from the file 300 is transferred to the upper fixing plate 620 and the load is dispersed in the anchor rod 610 fixed to the upper fixing plate 620 by a fixing nut The load transferred to the anchor rod 610 is transferred to the lower fixation plate 630 and a part of the circumferential groove 220 formed in the middle of the base 200 is inserted, 210 so that the load transferred to the lower fixation plate 630 is distributed resistively in the middle of the foundation.

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