KR100654228B1 - Structure lifting method possible to be re-lifting using pile member - Google Patents

Abstract

A lifting method of a structure using a re-liftable indenter is provided to lift up the settled structure by installing a pile, a top supporting body and a lift support plate to the inside of a structure having a limited space and to re-lift up the settled structure at need. A lifting method of a structure using a re-liftable indenter comprises the steps of cutting of the surface of a base plate(110) of a structure partially and forming a perforation on the base plate of the structure using a perforator, installing projecting members such as a deformed bar or an anchor bolt in the perforation, inserting a setting member to the inside of the perforation to make a fabric reinforcement(220) of the setting member put over the projecting members, unifying the setting member with the structure by placing filler such as mortar to the inside of the perforation and the base of the structure and hardening the mortar, inserting and setting an indenter(400) such as a concrete pile to the inside of a guide pipe(210) of the setting member, anchoring a top supporting body(300), composed of an upper plate(310) and a support bar(330) coupled to the upper plate by a connecting nut(320) and extended downward, on the setting member, installing a head reinforcement plate(340) on the head of the concrete pile selectively and installing an indentation unit(500) such as a hydraulic cylinder on the top of the head reinforcement plate, coupling the top of a vertical bar of the setting member with the support bar of the top supporting body using a connecting nut(350), setting many indenters to the lower ground(700) of the structure to lift up the settled structure to the wanted height, installing a lift support plate to the setting member which surrounds the indenter to keep the structure at the lifted state, dismantling the lift support plate from the setting member by unfastening a fastening nut of the installed lift support plate and re-installing the top supporting body using a connecting nut and installing an indentation unit between the top supporting body and the concrete pile and operating the indentation unit to lift up the settled structure again, and after re-lifting, dismantling the re-installed top supporting body and installing the lift support plate.

Description

Structural LIFTING METHOD POSSIBLE TO BE RE-LIFTING USING PILE MEMBER}

Figure 1 shows the press-fitting guide of the present invention and the installation form in the structure.

Figures 2a and 2b is a perspective view and a cross-sectional view showing a state in which the indentation guide, the indenter and the upper plate support of the present invention is installed.

3A and 3B illustrate a state in which an impression support plate is installed on the press-fit head installed in accordance with the present invention.

4A and 4B show examples of structures in which the present invention is installed.

Figure 5 shows the state of re-lifting the structure using the indenter of the present invention.

<Description of the symbols for the main parts of the drawings>

100: structure 110: structure bottom plate

200: setting member 300: upper support

400: indentation 500: indentation means

600: impression support plate

The present invention relates to a structure lifting method using a press-fitting body that can be re-imprinted. More specifically, a pile, a top plate support, and an impression support plate are arbitrarily installed inside a structure having a limited space in the basement, such as an apartment basement, to raise the sinked structure, and to raise the structure using an indentation body which can be redrawn later if necessary. It is about public law.

In case of subsidence or reinforcement of the constructed structure, most of the methods have been used to inject cement solution or mortar into the ground.However, it is difficult to secure and evaluate the quality of the construction results. Most of the techniques up to this point were to suppress additional settlement, and when the soft ground layer was thick or the height to be raised was large, there was a problem that even if the foundation reinforcement or pulling of the structure was possible, excessive cost was required.

In addition, the construction itself is impossible or additional damage may be caused because heavy equipment must be brought in to the drilling position inside the structure for drilling for injection.

In addition, a high pressure air compressor or a perforation method using a suspension may further weaken the strength due to damage by air pressure or liquefaction of the ground before the injection material is cured. Auger drilling was also not applicable to existing structures.

On the contrary, the steel pipe pile press-in method is a vibration-free, noise-free, environmentally friendly method that presses the steel pipe pile up to the required hard strata, and simultaneously raises and strengthens the structure settled by the pressed pile. It can be said that it is a method that can solve all the existing problems, such as the accuracy of the indentation pile is accurately understood.

However, when the underground structures were submerged, there was no specific construction method for supporting and pulling the pile in applying the above-ply press method in a limited closed space that was not opened. When it occurs, it is not possible to develop a method that can easily re-raise the structure. Therefore, there is a need to develop a technology for raising and re-raising a new structure.

The present invention is to solve the problems of the prior art as an object of the present invention to restore the function of the structure through the basic reinforcement and impression of the structure is settled, the structure can be raised and re-raised later It is to provide a technique that can make an impression.

The present invention to achieve the above technical problem

First, after setting the drilling hole 120 in the bottom plate 110 of the structure 100, the setting member 200 including a reinforcing bar 220 formed to surround the guide pipe 210 in the drilling hole 120 ) To be installed first, but the setting member 200 is to be integrated into the drilling hole 120, the upper support member 300 located inside the structure 100 is installed on the top of the setting member 200. .

In the setting member 200 is inserted and set the press-fit body 400 such as a concrete pile, and the press-fit means 500 including the hydraulic cylinder between the press-fit member 400 and the upper support 300, the press-fit body The 400 was continuously pushed into the hard support layer at the bottom of the structure so that the sinked structure could be raised.

As a result, the present invention allows the structure to be raised only by the process of press-fitting the indenter 400 into the structure, and serves as a permanent foundation reinforcement pile of the structure 100.

Second, the upper part of the final press-fitted body 400 was able to continuously maintain the state of the structure raised through the impression support plate 600 on the bottom of the structure, and after dismantling the tension support plate 600, the top plate again The support 300 was connected to the setting member 200 and re-impression of the re-settled structure 100 using the indentation means 500 was possible.

That is, the head of the final press-fitted body is not permanently finished as in the prior art, and the impression supporting plate 600 causes the press-in of the press-fitted body 400 to be constrained by the setting member 200 integrated with the structure. In, if necessary, the lifting support plate 600 is dismantled, and again after installing the upper plate support 300 and the press-in means 500, it is possible to re-sink the re-settled structure.

BRIEF DESCRIPTION OF DRAWINGS To describe the present invention more clearly and easily, the following describes the best embodiments of the present invention in detail with reference to the accompanying drawings, and embodiments according to the present invention may be modified in various other forms, and thus the scope of the present invention. Is not limited to the embodiments described below.

1 illustrates a state in which the setting member 200 of the present invention is installed in the drilling hole 120 formed in the bottom plate 110 of the structure 100, and FIGS. 2A and 2B illustrate the setting member 200 of the present invention. The press fitting body 400 is set in the state, the upper plate support 300 and the pressing means 500 is installed in the setting member 200 is a state diagram and a cross-sectional view, Figure 3a and 3b is a press-fit of the present invention 400 shows the state installed in the structure 100 by the impression support plate 600, Figures 4a and 4b shows an example of the installation of the present invention around the basement wall and the pillars in particular, Figure 5 The dismantled support plate 600 for re-uplifting the structure 100 is reopened and shows the state in which the top plate support, the pressing means reinstalled state in the form of a plan view.

First, the present invention in particular presses the indenter 400, such as a concrete pile, from the bottom surface 110 of the structure 100, such as the basement floor surface of the building structure, such as an apartment or building, as shown in Figures 4a and 4b It is constructed in such a way that. Accordingly, it can be said that the pile press-fitting method of press-fitting the press-fit body 400 to the ground by the reaction force by the press-in means including the hydraulic cylinder is basically used.

First, the setting member 200 to be installed as a reaction means together with the initial setting for pressing the indenter 400 into the lower ground of the structure 100 and the upper support 300 to be described later is prepared in advance.

Referring to FIG. 1, the setting member 200 includes a guide tube 210, such as a circular steel pipe, and a rebar network 220 to wrap around the guide tube 210.

At this time, the length of the guide tube 210 is to be formed at least longer than the thickness (d) of the structure 100, the diameter of the guide tube 210 is a diameter enough to be inserted into the indenter 400 to be described later Have it.

Around the guide tube 210, the reinforcing bar network 220 integrated with the guide tube 210 and the welding method is mounted.

At this time, the reinforcing bar 220 is a plurality of vertical reinforcing bars 222 to bind the plurality of horizontal circular reinforcing bars 221 and the horizontal circular reinforcing bars 221 vertically spaced up and down the entire guide pipe 210 is mounted to each other It is formed to include,

The vertical reinforcing bars 222 are spaced apart from each other and installed to surround the guide tube 210, the lower end of which is formed to be bent outward in an extended state than the lower end of the guide tube 210, and the upper end of the vertical rebar 222 is guide tube 210. It extends from the upper end portion and is formed to protrude upward.

The setting member 200 is to be used immediately to raise the structure 100 by manufacturing a large number in advance near the factory or the site.

In order to install the setting member 200 manufactured as described above, first, a part of the surface of the bottom plate 110 is cut off, and then the drilling hole 120 is formed in the bottom plate 110 by using a drilling tool.

The bottom plate 110 of the structure 100 may be a bottom plate around the wall 140 installed in the structure 100, as shown in Figures 4a and 4b, the bottom plate around the column 150 installed in the structure 100 It could be.

At this time, the drilling hole 120 has a larger diameter of the upper portion and a larger diameter of the lower portion is formed to be larger, so that the space for installing the upper support 300 to be described later to the setting member 200 is formed. This is preferred.

In a substantially middle portion of the drilling hole 120, a protruding member 130 including reinforcing bars from the inner surface of the drilling hole is installed in advance.

Although it is economical to use a deformed steel bar having a predetermined length as the protruding member 130, it is possible to use a member such as a plate shape or an anchor bolt, and the hole is formed in the upper and lower inner surfaces of the drilled hole 120 in advance. Next, one end of the protruding member 130 may be inserted and fixed, and the other end may be installed to slightly protrude from the inner surface of the drilling hole.

Next, as shown in FIG. 2A, the setting member 200 is inserted into the drilling hole 120, and the rebar network 220 of the setting member 200 spans the protruding member 130. The setting member 200 and the protruding member 130 are finally integrated by welding or the like.

The diameter of the punching hole 120 should be such that a space capable of integrating the setting member 200 and the protruding member 130 to each other.

Next, in order for the setting member 200 and the structure 100 to be integrated with each other, as shown in FIG. 2B, the filling material 150 such as mortar is filled in the sacral hole 120 and a part of the bottom surface of the structure 100, and mortar. When the setting member 200 is integrated with the structure 100 when it is cured.

At this time, the bent lower end of the vertical reinforcing bar 220 constituting the setting member 200 serves as a stopper (STOPPER) as a kind of fixing means to act as a configuration that can resist drawing when the setting member 200 is to be drawn out. do.

Next, the indenter 400 is inserted into the guide tube 210 of the setting member 200 to be set.

At this time, the indenter 400 is to use a concrete pile produced as a structural pile. The reason for using such a concrete pile is because it can act as a basic reinforcing member of the structure 100 by itself, and furthermore, the FRP file manufactured as a structural pile can be used, but the present invention will be described based on the concrete pile.

That is, when the concrete pile is continuously press-fitted into the bottom of the structure 100 by using the upper support 300 and the press means 500 described below, the tip reaches the hard support layer under the bottom of the final ground, and by additional press-fitting A kind of reaction force is generated, and this reaction force is constrained by the setting member 200 integrated with the structure 100 to eventually raise the settled structure.

In addition, when the concrete pile is used as the indenting body 400, it is possible to secure sufficient economical efficiency compared to using a steel pipe, it is also possible to omit the work, such as the need to add additional concrete inside the steel pipe. .

Furthermore, these concrete piles are used to be made in consideration of the ceiling height and the transport of the structure, but until they reach the hard support layer, they are connected to each other through a concrete pile connection method that is commonly used, so that they can be press-fitted. The indenter 400 initially press-fitted by 200 may be initially set vertically, and thus, its straightness may be secured when press-fitted, thereby sufficiently securing workability and workability.

Next, the upper support 300 of the present invention is mounted on the setting member 200.

At this time, the upper support 300 is a circular upper plate 310 and one end penetrating the upper plate is fastened to the upper plate 310 by a connection nut 320, the other end is a support reinforcement 330 is formed so as to extend downward It is provided.

That is, in the state in which the concrete pile is initially set to the setting member 200 by the press-fit member 400, the head reinforcing plate 340 is selectively installed on the head of the concrete pile, and the predetermined capacity is provided on the top surface of the head reinforcing plate 310. Install a press-fit means such as a hydraulic cylinder having a.

Next, the upper end of the vertical reinforcing bar 222 constituting the setting member 200 is to be fastened with the support bar 330 of the upper support 300, such fastening is simply mechanically fastened by the connection nut 350 To ensure workability,

Thus, the upper portion of the press-in means 500 is installed to contact the bottom surface of the upper plate 310 constituting the upper support 300, it is preferable to have a large ground area by the upper support member 360.

Next, the press body 400 is press-fitted into the lower structure 700 of the structure.

That is, the operation of the press-fit means 500 such as the hydraulic cylinder is connected to the setting member 200 and the setting member 200 and the setting member 200 integrated with the structure 100, the upper support member 300 is restrained by the reaction force by the reaction force The concrete pile 400 is to be pressed into the lower ground 700 of the drilling hole 130.

While measuring the amount of indentation by one stroke of the indentation means 500, while pressing a plurality of concrete piles to a predetermined depth as shown in Figs. 4a and 4b, the tip of the final concrete pile reaches the hard support layer of the lower ground of the structure. To do that.

If additional pressurization is continuously transmitted to the indenter 400 in which the tip is press-fitted to the rigid support layer as described above, the indenter 400 is no longer press-fitted to the rigid support layer, and thus the structure 100 in the form of reaction force. ) Can be raised by the indenter (400).

As a result, when the entire indentation of the plurality of indenters 400 to the lower ground 700 is completed, it is possible to finally raise the settled structure 100 to the desired degree.

When the final structure impression is confirmed, it stops the operation of the indentation means (500).

At this time, while maintaining the final pulling state of the structure 100, the present invention is to raise the support plate 600 to the setting member 200 surrounding the indentation 400 as shown in Figure 3a and 3b to enable additional Will be installed.

First, referring to FIG. 3A, after releasing the connection nut 350 to dismantle the state in which the upper support 300 and the setting member 200 are connected, the vertical rebar 222 constituting the setting member 200 is a circular plate. The vertical reinforcing bar 220 is fastened to the final supporting plate 610 by using the fastening nut 620 in a state of protruding upward through the supporting plate 610. At this time, the support plate 610 is disposed so as not to protrude upward from the drilling hole 120, only the vertical reinforcing bar 222 of the setting member 200 is projected upward in the structure.

As a result, the pressing force acted to raise the structure 100 is finally restrained by the lifting support plate 600, so that the lifting state of the structure 100 can be maintained.

Referring to FIG. 3B, after dismantling the state in which the upper support member 300 and the setting member 200 are connected, the vertical reinforcing bars 222 constituting the setting member 200 form the support plate 610 in the form of a circular plate. The vertical reinforcing bar 222 is fastened to the support plate 610 by using the fastening nut 620 in a state where it is projected upward through the support plate 610 so as to protrude upward from the drilling hole 120. .

3A and 3B, when the impression support plate 600 is installed at the head of the final indenter 400, it is optional. As a result, the lifting operation of the structure 100 may be finally completed.

However, over time, there is room for the structure 100 to sink again due to various external influences.

Thus, in the present invention, the impression supporting plate 600 is not to be permanently finished so that the additional structure 100 can be raised.

Referring to FIG. 5, first, the fastening nut 620 of the installed impression support plate 600 is released to dismantle the impression support plate 600 from the setting member 200.

Next, using the connection nut 320 again to reinstall the upper support 300 consisting of the upper plate 310 and the vertical reinforcement 320, and the pressing means 500, the upper support 300 and the concrete pile ( 400).

When the press means 500 is operated, it is possible to raise the structure settled by the press input again.

In general, since the settling amount of the re-settled structure 100 may vary depending on the site, it may be possible to re-impress the structure 100 by using an additional indenter not shown.

When the final re-raising is completed, the upper support 300 is again dismantled, and the lifting support plate 600 is installed as shown in FIGS. 3A and 3B.

According to the present invention, in a closed space such as the basement of a structure, a more efficient and reusable structure is made possible by using a press-fitting body, which is a concrete pile, which serves as a permanent foundation reinforcement of the structure. Impression technique is provided.

An embodiment of the present invention described above and illustrated in the drawings should not be construed as limiting the technical spirit of the present invention. Those skilled in the art of the present invention can change and change the technical idea of the present invention in various forms. Therefore, such improvements and modifications fall within the protection scope of the present invention as long as it will be apparent to those skilled in the art.

Claims (6)

Forming a hole in the bottom of the structure; First inserting a setting member including a reinforcing bar network formed around the guide tube in the drilling hole to integrate the setting member into a structure; Inserting an indentation body into the guide tube to set a position, and then installing an upper end of the setting member on an upper support installed in the structure; Installing and operating a press-fit means between the upper end of the press-fit member and the upper support to press the press-fit into the lower ground of the structure and to raise the structure; Disassembling the upper support, the structure lifting method using a re-indentable indentation body comprising the step of installing an impression support plate for maintaining the raised state of the structure on the top of the setting member integrated into the structure . The method of claim 1, wherein the lifting support plate is dismantled from the setting member, and the upper end of the exposed setting member is fixed to the upper support which is reinstalled inside the structure, and is press-fitted between the upper end and the upper support of the existing indenter or additionally installed indenter. Installing and operating the means to further press the indenter to the lower part of the structure to re-elevate the structure, and then dismantle the upper support, and re-installing the impression support plate on the top of the setting member to maintain the raised state of the structure. Structural impression method using the indentation capable of re-imprinting further comprising a. According to claim 1 or 2, wherein the upper support Is connected to the upper end of the setting member and a mechanical fastening including a connecting nut to allow disassembly, the upper end of the setting member through the plate, characterized in that the upper end of the setting member is fastened by a fastener fastened to the upper surface of the plate member Structural impression method using press-fitting body that can be re-impressed The method of claim 3, wherein the press-fit member is a factory-made ready-made pile including a concrete pile or an FRP pile and press-fits to the hard support layer of the lower ground of the structure. The method of claim 3, wherein the integration of the setting member and the drilling hole is performed by forming a protruding member including reinforcing bars from the inner surface of the drilling hole formed in the structure in advance, and then binding the protruding member and the setting member to each other, and then drilling the setting member and the drilling member. A structure impression method using a press-fitting body that can be re-impressed, characterized in that the filling material containing the mortar in the space between the holes. [5] The method of claim 4, wherein the impression supporting plate installed in the press-fit member is formed inside the through hole or exposed to the upper part.

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