KR20160038428A - Reactive device with gear motor and pile construction method therewith - Google Patents

Abstract

The present invention relates to a reactive device using a driving motor and a pile driving method using the same capable of rapidly and efficiently press-fitting a pile such as a steel pipe in the underground of a foundation(underground floor slab) using the reactive device vertically transferring a reactive plate along an anchor rod using the driving motor. The reactive device using the driving motor includes: the anchor rod of which the lower part is mounted in the bottom of a foundation and the upper part is extended to an upper part of the foundation by passing through the foundation; the reactive plate including a lower reactive plate installed in the upper part of the anchor rod and vertically transferred along the anchor rod by the driving motor; and a press-fitting means installed in the bottom of the reactive plate.

Description

TECHNICAL FIELD [0001] The present invention relates to a reaction force using a drive motor, and a pile construction method using the same. BACKGROUND ART [0002]

The present invention relates to a reaction force body using a driving motor and a pile construction method using the same. More specifically, a driving motor that can press-fit a file such as a steel pipe into a foundation (basement bottom plate) lower ground more quickly and efficiently by using a reaction force body that the reaction plate transmits an up and down movement along an anchor rod by a driving motor And a file construction method using the same.

FIGS. 1A to 1F schematically show a construction for reinforcing a foundation of a structure by installing a pile on a basement floor of a conventional structure.

First, as shown in FIGS. 1A and 1B, since a basement bottom plate is generally made of concrete, only the basement bottom plate 10 is cored using a drilling machine (excavator) to form a press-fit hole 20.

The lower part of the press-in hole 20 is a ground 30 on which a structure is located. The press-in hole 20 is formed in a variety of shapes such as a soil layer, a weathering- And it exists in the ground state.

In this case, since it is difficult to bring the file 40, such as a steel pipe file, to the underfloor for the reinforcement of the foundation bottom plate, the file 40 is usually divided into 1-1.5m and the segmented file is transferred to the ground 30 using a press-fitting means 50 such as a hydraulic jack.

First, as shown in FIG. 1C, the reaction force body 60, which can be provided with the press-in means 50, which is a hydraulic jack having a capacity enough to press the file 40, is placed on the bottom surface of the underground bottom plate around the press- And is installed so as to be hooked on the lower end thereof and extend to the upper portion of the press-fit hole 20.

As shown in FIG. 1C, the reaction force body 60 is divided into a plurality of anchor rods 61 and 62 to be connected by a coupler 63, and a pressure plate 64 is mounted on the lower end of the lower anchor rod 62 And the upper end of the upper anchor rod 61 is made to be fixed to the reaction force plate 65 by a fastening nut 66.

In order to connect the anchor rods 61 and 62 by the coupler 63, the length of the hydraulic cylinders constituting the hydraulic jack, which is the pushing means 50, So that the extension length can be easily adjusted, but the restriction due to the limited space of the underfloor plate is avoided.

1d, a file 40 such as a steel pipe file is inserted into the press-fit hole 20, and a pressurizing means (not shown) as a hydraulic jack is inserted between the upper end of the pile 40 and the reaction force plate 65 constituting the reaction force body 60 And the hydraulic cylinder 51 is extended and extended by the reaction force plate 65 so that the pile 40 is downwardly press-fitted into the ground 30 by the reaction force, The file 40 can be press-fitted to the lower support layer A to secure a required supporting force.

Next, as shown in FIG. 1E, the anchor rods 61 and 62 constituting the reaction force body 60 and the file 40 of the steel pipe file are integrated with each other by welding so that the file 40 is fixed to the underground bottom plate do. That is to say, installing a new file on the basement floor.

Next, the anchor rods 61 and 62 and the reaction force plate 65 are disassembled by unscrewing the coupler 63 and the fixing plate 70 is installed on the upper end of the press-in hole 20, Is fastened to the fixing plate 70 by using the fastening nut 80.

Finally, as shown in FIG. 1F, the filling material 90 such as mortar or the like is filled in the press-in hole 20 to complete the upper surface of the underfloor so that the underfloor reinforcement can be completed.

2, the length of the anchor rods 61 and 62 is kept constant according to the depth of the piercing of the pile 40. When the length of the anchor rod is set to be 2 The filler steel pipe 92 and the head reinforcing plate 91 are often used for stable operation of the press-fitting means.

When the pile 40 is press-fitted using the press-in means 50, the lock nut 66 of the reaction plate 65 located at the upper end of the anchor rod is released and a reaction plate 65 is attached to the upper end of the press- It is often the case that the resetting is performed repeatedly in order to set the position downward.

The reaction force plate 65 is reset by unscrewing the upper and lower lock nuts 66 which restrain the reaction force plate 65. When the number of the piles 40 is increased, The workability due to the re-setting operation is so great that the reactive force work process takes a long time and the quality control is also not easy.

Accordingly, in the process of forming a press-fit hole in a foundation (a basement bottom plate) and installing a reaction force body, the reaction plate is transferred along the anchor rod by the driving force of the driving motor in the process of press- Accordingly, it is a technical object to solve the problem of providing a reaction force body using a drive motor which is quick and excellent in workability by facilitating the resetting operation of the conventional reaction force plate, and a file construction method using the same.

According to an aspect of the present invention,

First, an anchor rod and a reaction plate are mounted on an upper end of the anchor rod to press the anchor rod together with the reaction plate along the anchor rod.

In this case, the anchor bolt is engaged with the center driving gear mounted on the reaction plate, and the anchor bolster is rotated as the center driving gear, which receives the driving force by the driving motor, rotates. As a result, .

Therefore, it is possible to move up and down the reaction force plate by the driving motor not by hand, so that the installation and disassembly work are not required.

Second, the central driving gear is formed with a rotary driving wing integrally formed on a central upper surface thereof so that the rotational driving wing can be supplied with the rotational force required for the central driving gear as the driving motor rotates.

Third, the driving motor is mounted on the upper reaction plate, and the upper reaction plate and the lower reaction plate are constrained by connecting bolts to each other so that the driving motor can be stably mounted.

To this end,

An anchor rod which is fixed to a bottom surface of the base and has an upper end extending through the base and extending to an upper portion of the base, A reaction force plate mounted on the anchor gear fastened to the anchor rod and fed upward and downward along the anchor rod by the drive motor; And an engaging means provided on a bottom surface of the reaction force plate and press-fitting a file set between the anchor rods downward, wherein the driving motor includes an anchor rod fastened to the anchor rod so that the lower reaction plate is mounted on the lower side by a fastening nut, Gear; A central drive gear rotatably mounted on a central upper surface of the lower reaction plate so that the anchor gear is circumscribed and having a bearing wing on its upper surface; And a motor mounted on an upper surface of the upper reaction force plate mounted on the upper portion of the anchor gear by a coupling nut so that the bearing wing is exposed by the center and connected to the bearing wing.

Also,

(a) an anchor rod inserted into the anchor hole so as to penetrate through the foundation and having a lower end fixed to the base bottom and an upper end extending to the upper part of the foundation, and b) (C) a reaction force plate provided with a drive motor at the upper end of the anchor rod and provided with a press-in means at the bottom, (d) a press- And pushing the file into the lower ground by a reaction force generated by the operation of the means. When the file is pushed to a depth corresponding to one stroke, the reaction force plate is moved downward along the anchor rod by the drive motor An anchor gear fastened to the anchor rod so that the lower reaction plate is mounted on the lower side by a fastening nut; A central drive gear rotatably mounted on a central upper surface of the lower reaction plate so that the anchor gear is circumscribed and having a bearing wing on its upper surface; And a motor mounted on an upper surface of the upper reaction force plate mounted on the upper part of the anchor gear by a coupling nut so that the bearing wing is exposed by the center, and connected to the bearing wing, and a file construction method using the reaction force body using the driving motor do.

Since the reaction force plate of the reaction force body of the present invention can be freely transferred up and down along the anchor rod by the drive motor, the resetting operation of the reaction force plate due to the press-fitting of the pile can be simplified so that the process is simplified, So that the body can be operated.

Figs. 1A to 1F are diagrams showing a pile construction procedure using a reaction force body and an indentation means using an anchor rod,
FIG. 2 is a sectional view of a pile construction using a reaction force body and an indentation means using another conventional anchor rod,
FIGS. 3A and 3B illustrate the construction of the reaction force body using the driving motor of the present invention,
Fig. 3C and Fig. 3D are structural perspective views of a reaction force body and a reaction force plate using the drive motor of the present invention, Fig.
FIGS. 4A, 4B, 4C, and 4D are operation sequence diagrams of a reaction force body using the driving motor of 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.

[Reaction Force Body 100 Using the Drive Motor 200 of the Present Invention]

FIGS. 3A and 3B illustrate construction attempts of the reaction force body 100 using the driving motor of the present invention.

The reaction force body 100 using the driving motor includes an anchor rod 110, a reaction force plate 120 and a press-in means 130. The reaction force body 100 includes a reaction force plate 120, .

The anchor rod 110 is vertically inserted into a perforation hole 310 formed in a basement bottom plate 300 and an anchor hole 320 formed around the perforation hole, And 300 are formed to extend upward.

3B, the anchor rod 110 is composed of a lower anchor rod 111 provided on the base 300 and an upper anchor rod 112 extending upward from the base 300 and connected to the lower anchor rod 111 have.

The reaction force body 100 of the present invention basically pushes the pile 400 inserted in the perforation hole 310 and presses the pushing means 130 into the reaction force plate 120 at the upper end of the anchor rod 110, The cylinder constituting the press-in means is operated to push the pile 400 downward.

Therefore, the depth at which the file 400 is downwardly pressed into the lower ground of the underground bottom plate (base portion 300) actuates one stroke of the press-in means (the extension length from the initial start position to the final extended position of the cylinder) The reaction force plate 120 is set downward on the anchor rod 110 and the one push stroke of the pushing means is operated again to push the pile 400 to a desired depth repeatedly.

The reaction force plate 120 is moved along the anchor rod 110 to move the drive motor 200 along the anchor rod 110. Therefore, when the reaction force plate 120 is manually moved repeatedly along the anchor rod 110, So that it can be automatically transported.

In this transfer, the anchor rod 110 is formed of a bolt (screw bolt), so that the reaction plate 120 is rotated in the state where the reaction plate 120 is fastened to the anchor rod 210 and can be transferred upward and downward in the rotation direction .

3A, 3B, 4A and 4B, the reaction force plate 120 includes a lower reaction force plate 121 and an upper reaction force plate 122, and the lower reaction force plate 121 and the upper reaction force plate 122 And is fastened to the anchor rod 112 by an anchor rod gear 210.

The driving motor 200 serves to feed the lower reaction plate 121 and the upper reaction plate 122 upward and downward along the anchor rod 110.

The drive motor 200 is configured to include an anchor rod gear 210, a center drive gear 220, a bearing wing 230, and a motor 240.

That is, when the motor 240 rotates, the center drive gear 220 rotates, and the anchor rod gear 210 engaged with the center drive gear 220 is rotated. Since the anchor rod gear 210 is fastened to the upper anchor rod 112 and the reaction plate 120 is fastened to the anchor rod gear 210 by the fastening nut 113, The reaction plate 120 is moved upward and downward along the anchor rod 110 according to the rotation direction.

[Operation of drive motor 200 of the present invention]

Referring to FIGS. 4A and 4B, the configuration for operation of the driving motor 200 of the present invention can be confirmed.

It can be seen that four anchor rods 110 of the reaction force body 100 are provided.

4a, the anchor rod gear 210 is fastened to the anchor rod 110 and the body portion 211 is fastened to the anchor rod 110 and the wheel gear 212 is formed on the outer peripheral surface of the body portion .

At this time, it is understood that the wheel gear 212 is located on the upper surface of the lower reaction plate 121 fastened to the anchor rod 120 by the anchor rod gear 210.

4B, the lower reaction plate 121 is fastened to the body 211 of the anchor rod by a fastening nut 113.

It can be seen that the center drive gear 220 is engaged so that the anchor rod gear 210 installed on each anchor rod 110 is circumscribed and the center drive gear 220 is engaged with the center upper surface of the lower reaction plate 121 And is formed so as to be horizontally rotatable by the bearing wings 230.

4A, the bearing wing 230 is fixed to the center of the lower reaction force plate 121, and a horizontal flange 232 is formed on the outer circumference of the bearing rod 231 And the wing 233 is formed on the outer peripheral surface of the horizontal flange 232 so as to face each other.

When the bearing wing 230 is rotated, the central drive gear 220 integrated with the bearing wing 230 is rotated while being restrained on the lower reaction plate 121, and the center drive gear 220 is rotated The anchor rod gear 210, which is circumscribed, is rotated, so that the anchor rod gear 210 is rotated along the anchor rod 110 while being rotated.

The reaction force plate 120 constrained by the coupling nuts 113 is also transferred to the anchor rod gear 210 along the anchor rod.

As a result, the lower reaction force plate 121 is moved upward or downward along the anchor rod 120 in accordance with the rotation direction of the central drive gear 220, and the anchor rod 110 is formed of a computer bolt .

It can be seen that the motor 240 is attached to the center driving gear 220 by the bearing wing 230 for rotation of the center driving gear 220.

The upper reaction force plate 122 is further mounted and the bearing wing 230 is exposed through the center hole of the upper reaction force plate 122 so that the motor 240 is connected to the bearing rod 231 of the bearing bush 230 It can be seen that it is inherited.

At this time, the upper reaction force plate 122 is also fastened to the anchor gear 210 by the fastening nut 113.

In addition, a fixing bolt 241 is formed at four corners of the motor 240 to enable stable driving (vibration control during motor driving) by a fixing bolt fastened to the upper reaction force plate 122.

The upper reaction plate 122 and the lower reaction plate 121 are also constrained by the connection bolts 114 and the nuts 115 and are transported together along the anchor rod 110.

The motor 240 can use a hydraulic motor and can control the direction of rotation with an operation switch (not shown) so that the reaction force plate 120 can be easily transferred.

[File Construction Method Using Reaction Force Using Driving Motor of the Present Invention]

5A, 5B, 5C, and 5D are views showing the construction of the reaction force body using the driving motor of the present invention.

First, as shown in FIG. 5A, a perforation hole 310 is formed in a basement bottom plate (base part 300), and the perforation hole 310 uses a perforator for reinforced concrete.

A ground G is formed under the basement floor (base portion) 300, and a pile 400, such as a steel pipe, is pressed into the ground.

For this purpose, the reaction force body 100 using the driving motor 200 is used. In order to install the lower anchor rod 111, anchor holes 112 are separately formed around the perforation holes 310.

The lower end of the lower anchor rod 111 inserted into the anchor hole 112 is stably fixed to the bottom of the underground bottom plate 300 by the fixing nut 117 and the support plate 116, for example. This may be done by using a space formed by the perforation hole 310.

It can be seen that four such lower anchor rods 111 are installed.

Next, the lower anchor rod 111 is fixed by the fixing nut 118 on the upper surface through the underground bottom plate (base portion 300), and the upper anchor rod 112 is moved upward by using the coupler 119 As shown in Fig.

It is to be noted that four such upper anchor rods 112 are also provided. In addition, the lower anchor rod 111 and the upper anchor rod 112 use a computer bolt having a threaded portion formed on the outer peripheral surface thereof.

It is noted that a reaction force plate 120 mounted with the drive motor 200 described above is installed at the upper end of the upper anchor rod 112.

The reaction force plate 120 is formed of the lower reaction plate 121 and the upper reaction force plate 122 and the driving motor 200 is mounted on the upper reaction force plate 122.

The presser means 130 is integrally formed on the bottom surface of the lower reaction force plate 122 as shown in FIG. 5B and the cylinder of the presser means 130 is brought into contact with the upper surface of the pile 400 by a filler.

When the press-fitting means 130 is operated, the cylinder is extended to push the pile 400 downward.

The pressing force reaction force P is transmitted to the reaction force plate 120 and the reaction force plate 120 is restrained by the anchor rod 110 to the bottom floor plate 300. Therefore, (Base portion) 300 to be able to press-fit the pile 400.

As shown in FIG. 5C, it is possible to press-fit a file having a certain depth in accordance with the stroke extension length of the cylinder 1 of the press-in means. When the cylinder is returned to the original position, a distance between the press- The reaction force plate 120 is lowered.

The drive motor is stopped when the press-in means 130 is positioned on the upper surface of the pile 400 having the predetermined depth.

When the pushing means 140 is actuated to press the file 400 and then the reaction plate 120 is lowered and the upper part of the pile 400 is positioned inside the punch hole, The press-fitting work is completed.

5D, the reaction plate 120 is upwardly moved to the upper end of the anchor rod 110, and a new file 400a is connected to the upper surface of the pushed-in file. Then, the steps of Figs. 5A to 5C are repeated, The connection is press-fitted.

Accordingly, the present invention allows the reaction force plate 120 to be freely moved up and down along the anchor rod 110 to a desired position other than the manual operation, thereby making it possible to improve the promptness and efficiency of the file press-fit installation.

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 type may be dispersed and implemented, and components described as being similarly distributed may also be implemented in a combined form. The scope of the present invention is not limited to the above- It is intended that the present invention covers the modifications and variations of this invention provided they come within the scope of the appended claims and their equivalents.

100: reaction force body using a driving motor
110: anchor rod
111: Lower anchor rod 112: Upper anchor rod
113: fastening nut 114: connecting bolt
115: nut 116:
117: Fixing nut 118: Fixing nut
120: reaction force plate
121: lower reaction plate 122: upper reaction plate
130: press-in means 200: drive motor
210: Anchor rod gear 211: Body portion
212: Wheel gear 220: Central drive gear
230: Bearing wing 240: Motor
300: foundation (basement bottom plate) 310: perforation hole
320: Anchor hole 400, 400a: File

Claims (7)

An anchor rod 110 fixed to the bottom of the base 300 and extending through the base and extending to the upper portion of the base, the anchor rod 110 being formed of a bolt; A reaction force plate 120 mounted on the anchor gear 210 fastened to the anchor rod 110 and fed upward and downward along the anchor rod 110 by the drive motor 200; And a pushing means 130 installed on a bottom surface of the reaction force plate 120 for press-fitting the pile 400 set between the anchor rods downward,
An anchor gear 210 fastened to the anchor rod 110 and having a lower reaction plate 121 mounted on the lower side by a fastening nut 113; A center driving gear 220 rotatably installed on a central upper surface of the lower reaction force plate 121 so as to circumscribe the anchor gear 210 and having a bearing wing 230 on its upper surface; And a motor 240 mounted on the upper surface of the upper reaction force plate 122 mounted on the upper portion of the anchor gear 210 by a coupling nut 113 to be exposed by the center of the bearing wing 230, A reaction force generating unit that generates a reaction force; The method according to claim 1,
The anchor rod gear 210 of the driving motor 200 has a body 211 coupled to the anchor rod 110 and a wheel gear 212 formed on a central outer circumferential surface of the body, The lower reaction force plate 121 is fixed to the lower surface of the wheel gear 212 by a fastening nut 113 at a lower portion of the body 211, A reaction force body using a driving motor to be mounted on the anchor rod 110. The method according to claim 1,
The bearing wheel 230
A horizontal flange 232 is formed on the outer circumferential surface of the bearing rod 231 and an outer circumferential surface of the horizontal flange 232 is formed on the outer circumferential surface of the horizontal flange 232. The bearing rod 231 is fixed to the center of the lower reaction plate 121, The center driving gear 220 integrated with the bearing wing 230 by the rotation of the bearing wing 230 is rotated so that its position is constrained on the lower reaction plate 121 The method of claim 3,
The upper and lower reaction force plates 122 and 121 are constrained to each other by the connecting bolts 114 so that the upper and lower reaction force plates are stably fed upward and downward together along the anchor rod 110, The motor 240 is fixed to the upper reaction force plate 122 by the fixing bolt 241 so that the motor 240 can be driven. The method according to claim 1,
The base 300 has a perforation hole 310 and a plurality of anchor holes 320 are formed around the perforation hole 210 so that the anchor rod 110 is connected to a lower anchor rod And an upper anchor rod 112 connected to the lower anchor rod 111 and extending upwardly from the base 300. The anchor gear 210 is connected to the upper anchor rod 113, . (a) An anchor rod 110 is installed to penetrate the base 300 inserted into the anchor hole 320, the lower end of which is fixed to the base bottom, and the upper end of the anchor rod 110,
(b) The pile 400 is set between the anchor rods 110 so as to be press-fitted into the foundation lower ground via the perforation hole 310,
(c) a reaction motor 120 is installed on the upper end of the anchor rod 110, and a reaction force plate 120 having a pressurizing means 140 installed on the lower surface thereof,
(d) pressing the file (400) into the lower ground by the reaction force of the operation of the press-in means (140) while the press-in means (140) touches the upper end of the set file,
When the file 400 is pushed to a depth corresponding to one stroke, the reaction motor 120 is moved downward along the anchor rod 110 by the driving motor 200,
The driving motor 200 includes an anchor gear 210 fastened to the anchor rod 110 and having a lower reaction plate 121 mounted on the lower side by a fastening nut 113; A center driving gear 220 rotatably installed on a central upper surface of the lower reaction force plate 121 so as to circumscribe the anchor gear 210 and having a bearing wing 230 on its upper surface; And a motor 240 mounted on the upper surface of the upper reaction force plate 122 mounted on the upper portion of the anchor gear 210 by a coupling nut 113 to be exposed by the center of the bearing wing 230, A file construction method using a reaction force body using a drive motor including the drive motor. The method according to claim 6,
A plurality of anchor holes 320 are formed around the perforation holes 210 so that the anchor rods 110 are connected to the base 300 And an upper anchor rod 112 extending upward from the base 300 and connected to the lower anchor rod 111. The method of claim 1,

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