KR102050170B1 - Foundation enlargement method for strengthening and lifting the foundation of a structure - Google Patents

Abstract

According to the present invention, a method for enlarging a lower portion of a foundation for reinforcing and raising the foundation of a building comprises: (S1) a step of forming a drilled hole to insert a steel pipe pile on a foundation plate of an existing building; (S2) a step of removing a portion of ground positioned on a lower portion of the foundation plate around the drilled hole to form an empty space; (S3) a step of coupling a reinforcing anchor extended laterally from the lower portion of the foundation plate to a coupling hole of a horizontal extension unit in a T-shaped connector consisting of a vertical extension unit having a coupling hole formed therein in a hollow space form and the horizontal extension unit horizontally extended from the outside of the vertical extension unit, coupling the T-shaped connector to lower portions of vertical bars, and then arranging a plurality of vertical bars in the drilled hole to arrange the lower portions of the vertical bars with the T-shaped connector coupled thereto in the empty space on the lower portion of the foundation plate; and (S4) a step of pouring mortar into the empty space where the vertical bars are installed through the drilled hole and curing the mortar to enlarge the lower portion of the foundation plate around the drilled hole.

Description

Foundation enlargement method for strengthening and lifting the foundation of a structure}

The present invention relates to a method of reinforcing the foundation of a building or to increase the concrete foundation of a building to raise the settlement.

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 the heavy equipment must be brought to the drilling position inside the structure in the drilling for injection.

In order to solve this problem, a basic reinforcement method by press-fitting steel pipe piles is proposed. The basic reinforcement method by press-fitting steel pipe pile is to press the steel pipe pile up to the required hard strata and to simultaneously raise and foundation reinforcement of the settled structure by press-fitted pile, as well as the strength of pile tip strata and the strength of press-fit pile. It can be said that it is a method that can solve existing problems such as being identified. This pile pressing system is shown in FIG. Referring to FIG. 1, the pile press-fitting system is first drilled into the foundation plate 10, the mat foundation or the independent foundation, and drills the drill hole 20 vertically downward, and is connected to the periphery of the drill hole 20. The through hole 15 having a diameter small enough to allow the bar 40 to be inserted is drilled at regular intervals along the circumferential direction. Subsequently, a portion of the ground 30 positioned below the base plate 10 is removed to expose the lower end of the through hole 15. Then, a specific tool (not shown) for supporting the nut 45 to be rotated is introduced into the lower portion of the base plate 10 through the drilling hole 20 so that the through hole 15 and the nut 45 Make sure the holes match.

In this state, the connecting bar 40 is inserted into the through hole 15, and the nut 45 located at the lower part of the base plate 10 at the end where the male screw part is formed is fastened by using a specific tool. Make sure the bottom is fixed. As such, when the bottom of the connection bar 40 is firmly fixed by fastening the nut 45 to the connection bar 40, the reaction plate 50 is installed on the top of the connection bar 40, and the reaction plate 50 is provided. Fixing the reaction plate 50 by fastening the nut to the end of the connecting bar 40 protruding upward. Thereafter, the steel pipe 80 is installed in the drilling hole 20, and then the hydraulic jack 60 is installed between the steel pipe 80 and the reaction plate 50, and the hydraulic jack 60 is operated to apply pressure to the steel pipe 80. Indent into the ground (30).

And between the reaction force plate 50 and the hydraulic jack 60 generated by the press-fitting of the steel pipe (80) through the gap control block 70 to perform a continuous press-in operation, and repeating this process a number of steel pipes The 80 is press-fitted to a predetermined depth to reinforce the foundation.

However, in such a steel pipe pile press, a means for pressing the steel pipes such as the hydraulic jack 60 and the reaction plate 50 is coupled to the base plate 10 made of concrete to receive the reaction force due to the steel pipe press fitting. If the thickness of the base plate 10 is not secured, there is a problem that cracks or damages occur in the base plate 10.

Therefore, the present invention was devised to solve the problems of the prior art as described above, if the thickness of the concrete foundation is not secured when reinforcing and raising the foundation of the building to prevent cracking or damage of the foundation plate and perform the work stably. The object of the present invention is to provide a method of increasing the foundation of the foundation for reinforcing and raising the foundation.

In accordance with the present invention, the method of foundation lowering for reinforcing and raising the foundation of the building is S1) forming a drilling hole 20 for inserting the steel pipe pile 200 into the foundation plate 10 of the existing building, and S2) the Removing a part of the ground 30 positioned below the base plate 10 around the perforation hole 20 to form an empty space 101, and S3) each of which a coupling hole is formed in the hollow shape in a vertical manner. In the coupling hole of the horizontal extension portion 112 in the T-shaped connector 110 composed of an extension portion 111 and a horizontal extension portion 112 extending horizontally from the outside of the vertical extension portion 111, the base plate 10 Reinforcement anchor 120 extending from the bottom to the side is coupled, the T-shaped connector 110 is coupled to the lower portion of the vertical bar 100, the T-shaped connector 110 is coupled to the vertical bar 100 ), A plurality of vertical bars 100 are disposed in the drilling hole 20 so that the lower part of the bottom part is disposed in the empty space 101 under the base plate 10. Step, S4) the mortar 140 is poured and cured in the empty space 101 in which the vertical bar 100 is installed through the drilling hole 20 to lower the base plate 10 around the drilling hole 20. Characterized in that it comprises the step of expanding.

In addition, a male screw portion is formed at a lower portion of the vertical bar 100, and a female screw portion is formed at a coupling hole of the vertical extension portion 111 in the T-shaped connector 110 to form a male screw portion formed at a lower portion of the vertical bar 100. And screwed together.

In addition, a male screw portion is formed at one end of the reinforcement anchor 120, and a female screw portion is formed at a coupling hole of the horizontal extension portion 112 in the T-shaped connector 110 to form a male screw portion formed at one end of the reinforcement anchor 120. And screwed together.

In addition, the lower portion of the vertical extension portion 111 in the T-shaped connector 110 is an L-shaped reinforcement anchor consisting of a horizontal portion 132 is bent at a right angle from the vertical portion 131 and the vertical portion 131 extending horizontally. 120 is coupled, the vertical portion 131 of the L-shaped reinforcement anchor 120 is characterized in that coupled to the lower coupling hole of the vertical extension portion 111 in the T-shaped connector (110).

In addition, the male portion is formed in the vertical portion 131 of the L-shaped reinforcement anchor 120 is characterized in that the T-shaped connector 110 is screwed to the lower coupling hole of the vertical extension portion 111.

In the step S4), the steel pipe pile 200 is vertically erected through the drilling hole 20 in the empty space 101 in which the vertical bar 100 is installed, and the drilling holes around the steel pipe pile 200 are formed. 20) the mortar 140 is poured and cured to expand the lower base plate 10 around the perforation hole 20, S5) the lower base plate 10 is expanded, and then the steel pipe pile 200 is grounded. It characterized in that it further comprises the step of indenting into (30).

In addition, in the step S4) is characterized in that the cover material is bonded to the bottom of the outer peripheral surface of the steel pipe pile 200 disposed in the empty space 101 to prevent contact with the mortar.

In addition, in step S5, the reaction plate 150 is coupled to the upper end of the vertical bar 100, and the hydraulic jack 160 is installed between the steel pipe pile 200 and the reaction plate 150 and the hydraulic jack ( It is characterized in that the steel pipe pile 200 is pressed into the ground 30 by operating the 160.

In addition, after the step S5) by welding the steel pipe pile 200 and the vertical bar 100 with the fixing plate 210 to fix the vertical bar 100 to the steel pipe pile 200, the steel pipe pile (200) It is characterized by further comprising the step of finishing the upper portion of the steel pipe pile 200 by pouring a secondary mortar (220) on the top.

According to the present invention, if the thickness of the concrete foundation is not secured during the foundation reinforcement and pulling up of the building, the foundation lower steaming method for the foundation reinforcement and raising of the building, which can prevent the crack or damage of the foundation plate and perform the work stably, Is provided.

1 is a view showing a conventional steel pipe pile pressing system,
2 to 5 are views showing a process according to an embodiment of the present invention, Figure 2 is a view showing a state in which the lower ground of the base plate and a vertical bar installed,
Figure 3 is a view showing a state in which a reaction plate is installed on the top of the vertical bar after the process of Figure 2,
4 is a view showing a process of press-fitting the steel pipe pile after the process of FIG.
5 is a view showing a state in which the upper end of the steel pipe pile after the process of FIG.

DETAILED DESCRIPTION OF THE INVENTION Hereinafter, a method of basing a lower base for strengthening and raising a foundation according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

2 to 5 illustrate a process according to an embodiment of the present invention, which illustrates an example of reinforcing a foundation through steel pipe indentation using the base lower steaming method of the present invention, and FIG. 3 is a view illustrating a state in which the ground is removed and a vertical bar is installed, and FIG. 3 is a view showing a state in which a reaction plate is installed at the top of the vertical bar after the process of FIG. 2, and FIG. 4 is a steel pipe pile after the process of FIG. 3. Figure 5 is a view showing a process of indenting, Figure 5 is a view showing a state in which the upper end of the steel pipe pile after the process of FIG.

The method of foundation lowering for foundation reinforcement and impression of the building according to the present invention is S1) forming a drilling hole 20 for inserting the steel pipe pile 200 into the foundation plate 10 of the existing building, and S2). Removing a portion of the ground 30 positioned below the base plate 10 around the perforation hole 20 to form an empty space 101, and S3) a coupling hole is formed in the hollow shape, respectively. In the coupling hole of the horizontal extension portion 112 in the T-shaped connector 110 consisting of a vertical extension portion 111 and a horizontal extension portion 112 extending horizontally from the outside of the vertical extension portion 111 to the base plate ( 10) the reinforcing anchor 120 extending from the bottom to the side is coupled, the T-shaped connector 110 is coupled to the lower portion of the vertical bar 100, and then the T-shaped connector 110 is coupled to the vertical bar ( A plurality of vertical bars 100 are disposed in the drilling hole 20 so that the lower portion of the 100 is disposed in the empty space 101 under the base plate 10. And, S4) the mortar 140 is poured and cured in the empty space 101 in which the vertical bar 100 is installed through the drilling hole 20, and then the base plate 10 around the drilling hole 20. Characterized in that it comprises the step of expanding the lower portion.

2 to 5 show an example of applying the base lower steaming method of the present invention and reinforcing the foundation through steel pipe intrusion, which will be described in more detail with reference to the accompanying drawings.

In the present invention, first, the drilling hole 20 is vertically drilled downward by using a corer to insert the steel pipe pile 200 into the base plate 10 made of concrete such as a mat foundation or an independent foundation of an existing building. Follow the steps.

Next, a part of the ground 30 positioned below the base plate 10 around the drilling hole 20 is removed. As shown in FIG. 2, the ground 30 is removed from the bottom of the base plate 10 so that the space 101 can be formed by a predetermined diameter and depth around the perforation hole 20 at the bottom of the base plate 10. Digging the ground (30).

Thereafter, the vertical bars 100 to be disposed in the drilling holes 20 are prepared, and male threads are formed on the upper and lower portions of the vertical bars 100, respectively. The vertical bar 100 has a lower portion of the vertical bar 100 disposed in the empty space 101 as shown in FIG. 2, and one lower portion of the vertical bar 100 disposed in the empty space 101. The above T-shaped connector 110 is coupled.

The T-shaped connector 110 is composed of a vertical extension portion 111 and a horizontal extension portion 112 extending horizontally from the outside of the vertical extension portion 111, the vertical extension portion 111 and the horizontal extension portion 112 Each of the coupling holes are formed in the hollow form. In addition, a female screw part is formed on the inner circumferential surface of the coupling hole of the vertical extension part 111 and the horizontal extension part 112.

Therefore, the male screw portion formed in the lower portion of the vertical bar 100 is screwed to the female screw portion of the coupling hole formed over the entire length of the vertical extension portion 111.

The reinforcing anchor 120 extending laterally from the vertical extension part 111 is coupled to the coupling hole of the horizontal extension part 112 formed horizontally on one side of the outer peripheral surface of the vertical extension part 111. The reinforcement anchor 120 extends from the lower side of the base plate 10 to the side to reinforce the shear strength of the lower base. An end male thread is formed at one end of the reinforcement anchor 120 to screw the female thread of the coupling hole. do.

In addition, in the present embodiment, two T-shaped connectors 110 are coupled to each vertical bar 100, and L-shaped reinforcement anchors 130 are disposed below the vertical extension 111 of the lower T-shaped connector 110. Is combined.

The L-shaped reinforcement anchor 130 is for reinforcing the shear strength of the lower portion of the foundation, which is extended like the reinforcement anchor 120, and is bent at right angles in the vertical portion 131 and the vertical portion 131 having the male threaded portion formed thereon, and the base plate. (10) consisting of a horizontal portion 132 extending horizontally from the bottom, the male screw portion of the vertical portion 131 is screwed to the lower coupling hole of the vertical extension portion 111 in the T-shaped connector 110, T-shaped The lower portion of the vertical bar 100 is coupled to the upper portion of the coupling hole of the vertical extension 111 of the connector 110.

Therefore, the four vertical bars 100 coupled to the T-shaped connector 110 are disposed in the drilling holes 20. The lower portion of the vertical bar 100 to which the T-shaped connector 110 is coupled is empty. The vertical bar 100 is vertically disposed in the drilling hole 20 so as to be disposed on the vertical bar 100. Four vertical bars 100 are disposed adjacent to the inner circumferential surface of the drilling hole 20 at intervals of 90 degrees along the circumferential direction of the drilling hole 20.

As such, the vertical bar 100 is disposed, and then the steel pipe pile 200 is vertically erected through the hole 20 as shown in FIG. 3 in the empty space 101 in which the vertical bar 100 is installed. At this time, the lower portion of the steel pipe pile 200 disposed in the empty space 101 in the steel pipe pile 200 is combined with a coating material (not shown) such as silver foil to prevent contact with the non-shrink mortar that is poured. Then, the non-contraction mortar 140 (or concrete) is poured into the empty space 101 around the steel pipe pile 200 and cured to expand the lower base plate 10 around the perforation hole 20.

After pouring and curing the non-contraction mortar 140, as shown in FIG. 3, the vertical bars 100 are further coupled to each other by using a coupler on top of each vertical bar 100. However, in the present embodiment, the vertical bar 100 is additionally coupled, but one vertical bar 100 having a long length may be used without additional coupling of the vertical bar 100.

Then, the reaction plate 150 is coupled to the top of the vertical bar 100 connected. The reaction plate 150 has four insertion holes into which the respective vertical bars 100 are inserted at the edges, and the vertical bars 100 inserted into the insertion holes of the reaction plate 150 have upper and lower reaction plates 150. Fix the reaction plate 150 by fastening the nuts to each.

After fastening the reaction plate 150 to the upper end of the vertical bar 100, as shown in Figure 4, the hydraulic jack (2) between the steel pipe pile 200 and the reaction plate 150 installed perpendicular to the drilling hole 20 Install the 160 and operate the hydraulic jack 160 using the hydraulic pump 180.

When the hydraulic jack 160 is operated as described above, one end of the hydraulic jack 160 is supported by the reaction plate 150 to press the steel pipe pile 200, and thus the steel pipe pile 200 is press-fitted into the ground 30.

And between the reaction force plate 150 and the hydraulic jack 160 generated in accordance with the press-fit of the steel pipe 200 through the gap control block 170 to perform a continuous press-in operation, and repeating this process a number of steel pipes The pile 200 is press-fitted to a predetermined depth to reinforce the foundation. In addition, when the impression of the building is necessary due to the settlement of the building, if the steel pipe pile 200 is press-fitted to a depth that is no longer press-fitted, and then the hydraulic jack 160 is additionally operated, the base plate 10 is raised by the reaction force. The base plate 10 is raised to a predetermined height so that the building is horizontal, and then the vertical bar 100 is combined with the steel pipe pile 200 to complete the pulling operation.

After completing the basic reinforcement or pulling work as described above, remove the vertical bar 100, reaction force plate 150, hydraulic jack 160, and the like further connected to the vertical bar 100 installed in the drilling hole and the steel pipe pile 200 The vertical bars 100 are welded to each other with the fixing plate 210. That is, one side of the fixing plate 210 is welded to the vertical bar 100, and the other side of the fixing plate 210 is welded to the steel pipe pile 200 to fix the vertical bar 100 to the steel pipe pile 200. Let's do it. Next, the secondary non-contraction mortar 220 is poured into the upper portion of the steel pipe pile 200 including the inside of the steel pipe pile 200. The secondary mortar 220 is placed on the upper portion of the steel pipe pile 200 so that the pouring surface thereof is horizontal with the upper surface of the base plate 10 to close the upper portion of the steel pipe pile 200.

Therefore, when the thickness of the concrete foundation is not secured, if the steel pipe pile 200 is forcibly pressed in to reinforce the foundation, the concrete foundation plate 10 may be cracked or the foundation plate 10 may be damaged. In the present invention, the reinforcement anchor 120 and the L-shaped reinforcement anchor 130 are installed using the T-shaped connector 110 coupled to the vertical bar 100 at the bottom of the base plate 10, and the non-shrink mortar 140 is installed. By adding the base lower part by pouring and then raising the foundation reinforcement and structure, it is possible to prevent the crack or damage of the base plate 10 and to perform the foundation reinforcement and pulling stably.

On the other hand, in the present invention has been described as an example of reinforcing the foundation by pressing the steel pipe pile after swelling the lower base, it can also be reinforced by other methods.

As mentioned above, although this invention was demonstrated with reference to the preferred embodiment, this invention is not limited to this, The person skilled in the art can variously change in the range which does not deviate from the summary of this invention described in the claim below. It will be easy to understand.

10: basic plate 20: drilling hole
30: ground 100: vertical bar
110: T-shaped connector 120: reinforcement anchor
130: L-shaped reinforcement anchor 140: no shrinkage mortar
150: reaction plate 160: hydraulic jack
170: gap adjusting member 180: hydraulic pump

Claims (9)

S1) forming a drilling hole 20 for inserting the steel pipe pile 200 in the base plate 10 of the existing building,
S2) forming an empty space 101 by removing a part of the ground 30 positioned below the base plate 10 around the perforation hole 20;
S3) horizontal extension in the T-shaped connector 110, each consisting of a vertical extension portion 111 and a horizontal extension portion 112 that extends horizontally from the outside of the vertical extension portion 111, the coupling hole is formed inside each in a hollow shape; The reinforcing anchor 120 extending laterally from the bottom of the base plate 10 is coupled to the coupling hole of the part 112, and after coupling the T-shaped connector 110 to the lower part of the vertical bar 100, the Arranging a plurality of vertical bars 100 in the drilling hole 20 such that the lower portion of the vertical bar 100 to which the T-shaped connector 110 is coupled is disposed in the empty space 101 under the base plate 10; ,
S4) the mortar 140 is poured into the empty space 101 under the base plate 10 through the drilling hole 20 and cured to form a T-shaped connector on the vertical bar 100 and the vertical bar 100. Reinforcing anchor 120 coupled to 110 is made to include the step of expanding the base plate 10 to be embedded in the mortar 140,
L-shaped reinforcement anchor 130 formed of a horizontal portion 132 bent at right angles in the vertical portion 131 and the vertical portion 131 at the lower portion of the vertical extension portion 111 in the T-shaped connector 110 to extend horizontally. ) Is coupled, and the vertical portion 131 of the L-shaped reinforcement anchor 130 is coupled to the lower portion of the coupling hole of the vertical extension 111 in the T-shaped connector 110,
A male screw portion is formed at the lower portion of the vertical bar 100,
The female thread is formed in the coupling hole of the vertical extension part 111 in the T-shaped connector 110 and is screwed with the male thread part formed in the lower portion of the vertical bar 100.
One end of the reinforcement anchor 120 is formed with a male screw,
A female thread is formed in the coupling hole of the horizontal extension part 112 in the T-shaped connector 110 and is screwed with a male thread part formed at one end of the reinforcement anchor 120.
The male portion is formed in the vertical portion 131 of the L-shaped reinforcement anchor 130 is the basic reinforcement of the building, characterized in that the screw is coupled to the lower coupling hole of the vertical extension portion 111 in the T-shaped connector 110 and Underlaying method for raising. delete delete delete delete The method of claim 1,
In step S4), the steel pipe pile 200 is vertically erected through the drilling hole 20 in the empty space 101 in which the vertical bar 100 is installed, and the drilling hole 20 around the steel pipe pile 200 is installed. The mortar 140 is poured and cured to expand the lower base plate 10 around the perforation hole 20,
S5) after the base plate (10) is added to the bottom of the base reinforcement method for strengthening and raising the foundation, characterized in that further comprising the step of pressing the steel pipe pile 200 into the ground (30). The method of claim 6,
Under the outer periphery of the steel pipe pile 200 disposed in the empty space 101 in the step S4) is coupled to the base material for strengthening and raising the foundation of the building, characterized in that the cover material is coupled to prevent contact with mortar Way. The method of claim 6,
In step S5), the reaction force plate 150 is coupled to the upper end of the vertical bar 100, and the hydraulic jack 160 is installed between the steel pipe pile 200 and the reaction force plate 150 and the hydraulic jack 160 is installed. The base lower steaming method for the foundation reinforcement and impression of the building, characterized in that to press the steel pipe pile 200 into the ground (30) by operating. The method of claim 6,
After the step S5) by welding the steel pipe pile 200 and the vertical bar 100 with the fixing plate 210 to fix the vertical bar 100 to the steel pipe pile 200, the steel pipe pile 200 The method of placing the secondary mortar (220) on the upper part of the base lower reinforcement method for reinforcing and raising the foundation of the building, characterized in that it further comprises the step of finishing the upper portion of the steel pipe pile (200).

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