KR20240114523A - Ground Reinforcement Pile - Google Patents

Abstract

The present invention relates to piles for ground reinforcement, and more specifically, consists of a hollow external pile with a spiral groove formed on the inside, and an internal pile spirally coupled to the inside of the external pile, so that the internal pile is formed along the inside of the external pile. The auxiliary pile, which is lowered through spiral rotation and hinged to the lower part of the internal pile, protrudes outside the external pile and is inserted into the ground. With the protrusion of the auxiliary pile, the solidifying agent is discharged to ensure solid construction in the ground, thereby increasing the bearing capacity and preventing instability. This relates to piles for ground reinforcement that reinforce the ground.

Description

Ground Reinforcement Pile}

The present invention relates to piles for ground reinforcement, and more specifically, consists of a hollow external pile with a spiral groove formed on the inside, and an internal pile spirally coupled to the inside of the external pile, so that the internal pile is formed along the inside of the external pile. The auxiliary pile, which is lowered through spiral rotation and hinged to the lower part of the internal pile, protrudes outside the external pile and is inserted into the ground. With the protrusion of the auxiliary pile, the solidifying agent is discharged to ensure solid construction in the ground, thereby increasing the bearing capacity and preventing instability. This relates to piles for ground reinforcement that reinforce the ground.

Since the soil is exposed to the outside on bare land slopes that exist in mountains, roads, rivers, parks, or residential areas, soil and sand run off due to rain or wind and wind, accelerating erosion. Due to this erosion, landslides and floods frequently occur during rainy weather, resulting in many casualties.

To prevent this, concrete walls and retaining walls are being constructed. These retaining walls are made by cutting soil in the construction area or forming a form with reinforcing bars and panels to fill valleys and low areas in mountainous areas.

Additionally, it is generally constructed by pouring concrete into the form and then filling the back with soil and crushed stone.

Although these reinforced concrete retaining walls can prevent erosion to some extent, they are not aesthetically pleasing, and concrete retaining walls are not only undesirable in terms of cost and construction time due to molding and curing, but also have the disadvantage of requiring a lot of money for construction. .

In order to somewhat solve these problems, through Korea Registered Utility Model Publication No. 20-0359071, a tree has a structure in which auxiliary supports can be driven in the form of tree roots to increase the bearing capacity of the ground when a pile is driven into the ground. Rooted piles are known.

These conventional pile construction methods are usefully used in urban construction sites, and in-situ pile construction with relatively low vibration and noise has been mainly adopted in urban construction sites.

The above-mentioned on-site pile construction, for example, forms a pile hole by drilling the ground at the relevant location to the required depth, inserts and positions a core material along with a steel pipe into the drilled pile hole, and then inserts mortar (grout) into the pile hole as an injection hose. There is a technology to install foundation piles in the ground layer by injecting liquid).

It is true that the foundation pile constructed in this way maintains an appropriate frictional force with the surrounding ground and has the advantage of efficiently bearing the load of the ground structure.

However, soft ground is saturated with a large amount of moisture in the cohesive soil that forms the soft ground, so the bearing capacity due to external pressure and the strength of the ground are weak. When a load is applied, the structure is destroyed during construction due to shear failure, so the structure cannot be installed. In addition, if the ground surface subsides to a certain degree, even if the structure can be installed, due to the nature of soft ground, large-scale consolidation and settlement will continue over a long period of time, causing significant damage to structures installed on soft ground over time. Because of this, it is difficult for the foundation piles constructed as in-situ piles to maintain appropriate friction with the surrounding ground in loose or soft ground layers such as general soil.

That is, according to the foundation pile for reinforcing soft ground according to the prior art, because the outer peripheral surface of the foundation pile is straight, the friction between the foundation pile and the mortar is weak, so the soft ground cannot be effectively reinforced through the foundation pile.

On the other hand, steel pipe piles with spiral wings gain tip bearing capacity with the spiral wings, and grouting, a method of forcibly injecting fillers such as cement into the permeable stratum to increase friction and strengthen the surrounding ground, is sometimes performed. Grouting may be carried out later after the penetration of the steel pipe pile or may be carried out simultaneously with the penetration. Whichever method is chosen, in order to see the effect of grouting, grouting must be done around the spiral wings and along the entire length of the steel pipe pile. To achieve this, the pressurizing effect of the grouting must occur, and there must be no leakage of the grout when pressurizing.

KR 20-0359071 (registration number) 2004.08.05. KR 10-1378494 (registration number) 2014.03.20. KR 10-1574695 (registration number) 2015.11.30.

Accordingly, the present invention was devised to solve the above problems,

It consists of a hollow external pile with a spiral groove formed on the inside, and an internal pile spirally coupled to the inside of the external pile, and the internal pile is lowered in a spiral rotation along the inside of the external pile, and is hinged to the lower side of the internal pile. The purpose is to provide a ground reinforcement pile that reinforces unstable ground by increasing the bearing capacity by having the pile protrude outside the external pile and be inserted into the ground, and the solidifying agent stored throughout the entire length of the external pile is discharged to ensure solid construction in the ground. there is.

Another object of the present invention is that an auxiliary pile hinged at the bottom of the internal pile protrudes out of the external pile, wherein the auxiliary pile extends in contact with a cone-shaped protrusion at the inner center of the external pile and is seated in a through hole formed in the lower part of the external pile, The protrusion is inserted into the internal pile, and the internal pile and the auxiliary pile are completely combined inside the external pile to provide a ground reinforcement pile that firmly supports the external pile.

Another object of the present invention is to improve the soft ground by inserting the internal pile and the auxiliary pile into the external pile by inserting and rotating the injection rod, and the solidifying agent discharged through the outlet and through hole of the external pile penetrates into the ground. Rather, it provides auxiliary piles driven into the ground to reinforce soft ground, and piles for ground reinforcement that can effectively reinforce soft ground by increasing the bonding force between external piles and soft ground.

Another object of the present invention is to provide a pile for ground reinforcement in which the solidifying agent is stored in the solidifying agent storage piece in the external pile, and a cover is provided to cover the outlet and through hole through which the solidifying agent is discharged, thereby protecting the solidifying agent before discharge. It is done.

Another object of the present invention is to rotate and insert an internal pile into the external pile, and insert an auxiliary pile rotatably installed at the bottom of the internal pile while descending vertically, thereby inserting the internal pile and the auxiliary pile within the external pile. The purpose is to provide piles for easy ground reinforcement.

In order to achieve the above object, the present invention is a hollow external pile (110) in which a spiral groove (111) is formed inside, and a first solidifying agent storage piece (112) with a solidifying agent stored therein is disposed inside the discharge port (113). )and; A helical protrusion 121 is formed inside the external pile 110 and is helically coupled while moving along the helical groove 111, and is rotatably coupled along the inside of the external pile 110, and the helical protrusion 121 an internal pile 120 that pushes the first solidifying agent storage piece 112 to discharge the solidifying agent through the discharge port 113; It is coupled at the lower part of the internal pile 120, rotates together with the internal pile 120, and is spread by the protrusion 114 at the inner center of the external pile 110, and the second solidifying agent storage piece 115 at the bottom It includes an auxiliary pile 130 that is fixed in the ground by pushing the through hole 116, which was closed with the through hole cover 116a, to open the through hole 116 and discharge the solidifying agent to the outside through the through hole 116.

In the present invention, a cone-shaped protrusion 114 is formed at the inner center of the external pile 110, an internal pile 120 is seated on the upper part of the protrusion 114, and the external pile 110 and the internal pile 120 ) is formed integrally; When the internal pile 120 is coupled to the external pile 110, the outlet cover 113a covering the outlet 113 is connected to the first solidifying agent storage piece 112 by the coupling of the internal pile 120. It opens by being pushed out.

The upper surface of the external pile 110 of the present invention is open to insert the internal pile 120 to which the auxiliary pile 130 is coupled, and the spiral protrusion of the internal pile 120 is formed in the inner protrusion insertion groove 117 ( 121) is inserted, and the rotating portion 131 of the auxiliary pile 130 is vertically inserted into the rotating portion insertion groove 118.

The auxiliary pile 130 of the present invention is rotated on the outer peripheral surface of the coupling portion 122 at the bottom of the internal pile 120 when the internal pile 120 is coupled with the external pile 110.

In the present invention, the internal pile 120 and the external pile 110 are coupled by rotation by the support rod 140 inserted into the penetration portion 123 formed at the center of the upper surface of the internal pile 120.

In the present invention, a solidifying agent is injected into the penetration part 123 of the internal pile 120, a through hole connecting the penetration part 123 is formed, and the solidifying agent is discharged through the through hole.

Therefore, the pile for ground reinforcement of the present invention is composed of a hollow external pile with a spiral groove formed on the inside, and an internal pile spirally coupled to the inside of the external pile, and the internal pile is lowered through spiral rotation along the inside of the external pile. An auxiliary pile hinged to the lower part of the internal pile protrudes outside the external pile and is inserted into the ground, and the solidifying agent stored throughout the entire length of the external pile is discharged to ensure solid construction in the ground, thereby reinforcing unstable ground by increasing the bearing capacity. There is an effect.

In the present invention, an auxiliary pile hinged at the lower part of an internal pile protrudes out of the external pile, wherein the auxiliary pile extends in contact with a cone-shaped protrusion at the inner center of the external pile and is seated in a through hole formed at the bottom of the external pile, and the protrusion is It is inserted into the internal pile, and the internal pile and the auxiliary pile are completely combined inside the external pile, which has the effect of firmly supporting the external pile.

In the present invention, the internal pile and the auxiliary pile are inserted into the external pile by inserting and rotating the injection rod, and the solidifying agent discharged through the outlet and through hole of the external pile penetrates into the ground, thereby improving the soft ground as well as improving the soft ground. By increasing the bonding force between external piles driven into the ground for reinforcement and soft ground, soft ground can be effectively reinforced.

In the present invention, the solidifying agent is stored in the solidifying agent storage piece in the external pile, and covers are provided to cover the discharge port and the through hole through which the solidifying agent is discharged, which has the effect of protecting the solidifying agent before discharge.

The present invention has the advantage that the internal pile is rotated and inserted into the external pile, and the auxiliary pile rotatably installed at the bottom of the internal pile is inserted while descending vertically, making it easy to insert the internal pile and the auxiliary pile inside the external pile. There is also.

Figure 1 is a cross-sectional view of the pile for ground reinforcement according to the present invention when constructed on a slope,
Figure 2 is a schematic perspective view of the pile for ground reinforcement according to the present invention,
Figure 3 is a schematic isolated perspective view of the pile for ground reinforcement according to the present invention,
Figure 4 is a cross-sectional view of an operating state in which the internal pile and the auxiliary pile are inserted into the external pile in the pile for ground reinforcement according to the present invention,
Figure 5 is a cross-sectional view of the external pile in the pile for ground reinforcement according to the present invention,
Figure 6 is a perspective view of the cross-section of the external pile in the pile for ground reinforcement according to the present invention,
Figure 7 is a cross-sectional view of the internal pile being inserted into the external pile of the pile for ground reinforcement according to the present invention, the solidifying agent being discharged to the outside, and the auxiliary pile protruding.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings so that those skilled in the art can easily implement them.

The present invention is a ground reinforcement pile 100 for reinforcing soft ground as shown in Figures 1 to 7,

A hollow external pile 110 in which a spiral groove 111 is formed and a first solidifying agent storage piece 112 storing the solidifying agent is disposed inside the discharge port 113,

A helical protrusion 121 is formed inside the external pile 110 and is helically coupled while moving along the helical groove 111, and is rotatably coupled along the inside of the external pile 110, and the helical protrusion 121 an internal pile (120) that pushes the first solidifying agent storage piece (112) to discharge the solidifying agent through the discharge port (113);

It is coupled at the lower part of the internal pile 120, rotates together with the internal pile 120, and is spread by the protrusion 114 at the inner center of the external pile 110, and the second solidifying agent storage piece 115 at the bottom The through hole 116, which was closed by the through hole cover 116a, is opened by pushing and the solidifying agent is discharged to the outside through the through hole 116 and includes an auxiliary pile 130 that is fixed in the ground.

In addition, the present invention is a support rod that is inserted into the penetration portion 123 formed at the upper center of the internal pile 120 and rotates to move the internal pile 120 and the auxiliary pile 130 to the lower part of the external pile 110. Includes (140).

Meanwhile, in the present invention, the solidifying agent stored in the external pile 110 is an additive to solidify liquid materials and is used to solidify soft ground and sludge. The solidifying agent reacts with soft ground and sludge to form a physically and chemically stable hardened body, strengthening the ground and solidifying hazardous waste to prevent heavy metals contained in soft ground and sludge from leaching out, preventing contamination of soil or groundwater. plays a role.

The internal pile 120 is inserted and rotates spirally inside the external pile 110 by the support rod 140, and the auxiliary pile 130 rotates at the bottom of the internal pile 120 and is installed outside the external pile 110. They are inserted and installed while descending vertically inside the pile 110, and are inserted into the external pile 110 in different ways.

The external pile 110 into which the internal pile 120 and the auxiliary pile 130 are inserted is hollow, and a spiral groove 111 is formed on the inside so that the internal pile 120 is rotated and inserted in a spiral shape. .

And the external pile 110 is provided with a first solidifying agent storage piece 112 in which the solidifying agent is stored at regular intervals in the spiral groove 111, and the solidifying agent stored in the first solidifying agent storage piece 112 An outlet 113 is formed through which the auxiliary pile 130 is discharged to the outside, and a through hole 116 is formed on the lower side so that the auxiliary pile 130 is discharged to the outside.

Inside the through hole 116, a second solidifying agent storage piece 115 is provided, which is pushed to discharge the solidifying agent to the outside when the auxiliary pile 130 is discharged to the outside.

In this way, the external pile 110 stores the solidifying agent in the entire section along the outer peripheral surface and length, and the first solidifying agent storage piece 112 and the second solidifying agent storage piece 112 are formed by combining the internal pile 120 and the auxiliary pile 130. The solidifying agent stored in the solidifying agent storage piece 115 is discharged to the outside, making it possible to reinforce the ground.

In addition, the first solidifying agent storage piece 112 and the second solidifying agent storage piece 115 discharge the solidifying agent to the outside through the discharge port 113 and the through hole 116, and the internal pile 120 and the auxiliary Before the pile 130 is coupled, it is protected from the outside through the outlet cover 113a and the through hole cover 116a to prevent leakage.

The outlet cover 113a and the through hole cover 116a are provided so that the first solidifying agent storage piece 112 and the second solidifying agent storage piece 115 can be opened by pushing force.

Meanwhile, the external pile 110 has a cone-shaped protrusion 114 formed at the inner center, the auxiliary pile 130 touches the upper part of the protrusion 114 and spreads, and the protrusion 114 is the inner pile 120. It is inserted into the lower part so that the external pile 110 and the internal pile 120 are formed as one piece.

The protrusion 114 has a diameter corresponding to the lower surface of the internal pile 120 so that it can be inserted into the internal pile 120.

The external pile 110 may be made of a Pretensioned Spun High Strength Concrete Pile (PHC pile), which has superior axial load bearing capacity, is strong against blows, and has a large bending resistance compared to a PC pile.

As shown in FIG. 1, the external pile 110 is constructed to prevent ground subsidence and strengthen ground cohesion by driving it into the slope of a river, a cut in a road, or soft ground, and an internal pile 120 and an auxiliary pile are installed inside. (130) is inserted, the solidifying agent is discharged, and it is constructed as one piece.

The pile 100 for ground reinforcement of the present invention is constructed by driving the external pile 110 vertically into a slope or cut site by applying force with a pile driver, etc., and then combining the internal pile 120 and the support rod 140. By pressing and rotating this, the internal pile 120 and the auxiliary pile 130 are inserted into the upper opening of the external pile 110 and slide downward along the inner surface of the external pile 110, and the internal pile 120 Inside the external pile 110, the first solidifying agent storage piece 112, which is disposed at regular intervals, is pushed to discharge the solidifying agent to the outside through the discharge port 113, and the auxiliary pile 130 is connected to the protrusion 114. It touches and spreads, protrudes outward through the through hole 116 and is driven into the ground, and the second solidifying agent storage piece 115 also protrudes outward through the through hole 116, discharges the solidifying agent, and binds to the ground. do.

On the other hand, the external pile 110 is made by a pouring construction method in which the pile is driven into the ground using a pile driver, or an excavation construction method in which a pile hole to insert the pile is excavated using an auger and then the pile is inserted into the excavated pile hole. can be inserted into the ground.

The external pile 110 covers the outlet 113, and an outlet cover 113a is formed that is opened by the solidifying agent discharged from the first solidifying agent storage piece 112. The outlet cover 113a is an outlet cover 113a. (113) It serves to protect the internal first solidifying agent storage piece 112, and can be opened from the upper side or the lower side.

The solidifying agent is stored inside the first solidifying agent storage piece 112, and the spiral protrusion 121 protruding from the outer peripheral surface of the internal pile 120 is pushed out by the pushing force and pushes the outlet cover 113a to form an outlet 113. ) to be discharged to the outside.

The solidifying agent is discharged along the outer peripheral surface of the external pile 110 and hardens to increase the bearing capacity of the external pile 110 and promote hardening.

At the upper end of the external pile 110, a protruding flange (110a) that is larger than the body part is placed to more effectively support the inclined surface, and a pointed part (110b) is placed at the lower end so that it can be easily driven into the ground and fixed. do.

The upper part of the external pile 110 is open to insert the internal pile 120 coupled with the auxiliary pile 130, and a spiral protrusion 121 that protrudes in a spiral manner is inserted into the cylindrical pile of the internal pile 120. A protrusion insertion groove 117 and a pivoting portion insertion groove 118 into which the pivoting portion 131, in which the auxiliary pile 130 is rotatably provided, are inserted are formed.

The protrusion insertion groove 117 is formed by opening the upper part of the external pile 110 so that the helical protrusion 121 is inserted into the starting portion of the helical groove 111, and having a wide width on one side.

The rotating part insertion groove 118 is formed open at a position corresponding to the rotating part 131 of the auxiliary pile 130, and is a groove into which the rotating part 131 is inserted, and the auxiliary pile 130 is discharged to the outside. It is provided in a straight line up to the through hole 116.

The internal pile 120 is inserted at the center of the upper surface of the external pile 110 where the protruding flange 110a is formed and is installed to be able to slide up and down along the inside of the external pile 110.

The internal pile 120 may be made of a cylindrical body with a hollow interior so that the holding rod 140 can be inserted, and a spiral protrusion corresponding to the spiral groove 111 of the external pile 110 is formed on the outer peripheral surface of the cylindrical body. (121) is formed, and a coupling portion 122 that is narrower than the upper portion is formed so that the auxiliary pile 130 is coupled to the lower portion.

The coupling portion 122 forms a step at the bottom to prevent the auxiliary pile 130 from being installed and separated.

The auxiliary pile 130 is coupled to the internal pile 120 using a ring-shaped rotary coupling part 132 rotatably mounted on the outer peripheral surface of the coupling part 122 at the bottom of the internal pile 120, and the external pile ( When inserted into 110), only the internal pile 120 rotates and the auxiliary pile 130 can be vertically coupled.

And the auxiliary pile 130 is hinged to the rotary coupling part 132 using the rotating part 131 and can be rotated and spread like wings.

A penetration part 123 is formed on the upper part of the internal pile 120 so that a support rod 140 for inserting the internal pile 120 into the external pile 110 is inserted, and the support rod 140 is inserted into the penetration part ( 123) and rotates, allowing the internal pile 120 to move downward within the external pile 110.

The lower surface of the internal pile 120 is opened to be extrapolated to the protrusion 114 formed on the inside of the external pile 110, and the width of the protrusion 114 corresponds to the bottom diameter of the protrusion 114, so that the protrusion 114 is internal. When inserted into the lower surface of the pile 120, the internal pile 120 and the external pile 110 are formed as one piece.

The auxiliary pile 130 coupled at the lower part of the internal pile 120 descends along the rotating portion insertion groove 118, touches the protrusion 114, unfolds, and protrudes outward through the through hole 116 to be inserted into the ground. It is provided as much as possible.

Meanwhile, the solidifying agent is injected into the penetration part 123 of the internal pile 120, and the solidifying agent is discharged from the penetration part 123 through a hole (not shown) formed along the outer peripheral surface of the internal pile 120 and the discharge port. The solidifying agent can be replenished through (113) and through hole (116).

The pile 100 for ground reinforcement of the present invention is constructed on a slope, has a spiral groove 111 formed therein, and is spaced apart from the spiral groove 111 in a hollow space where the first solidifying agent storage piece 112 is disposed. The external pile 110 is constructed on a slope, and the internal pile 120 is lowered in a spiral rotation along the inside, pushing the first solidifying agent storage piece 112 so that the internal solidifying agent is discharged, and the internal pile 120 ) The auxiliary pile 130, which is hinged to the rotary coupling portion 132 rotatably coupled to the lower side of the auxiliary pile 130, protrudes outward through the through hole 116 of the external pile 110 and is obliquely inserted into the ground. 2The solidifying agent storage piece 115 is also pushed out to discharge the solidifying agent, and the external pile 110, which is integrally combined with the internal pile 120 and the auxiliary pile 130, is firmly constructed and installed in the ground, thereby preventing soil runoff. It is possible to prevent ground subsidence of soft ground on slopes formed on embankments or cut-outs that are at risk of falling rocks or collapse, and to stabilize unstable soft ground by preventing loss and collapse of slopes.

Therefore, the pile 100 for ground reinforcement of the present invention includes a hollow external pile 110 with a spiral groove 111 formed therein, an internal pile 120 spirally coupled to the inside of the external pile 110, and , It consists of an auxiliary pile 130 coupled to the lower part of the internal pile 120, and lowers the internal pile 120 in a spiral rotation along the inside of the external pile 110, and is hinged to the lower side of the internal pile 120. The pile 130 protrudes outside the external pile 110 and is inserted into the ground, but the solidifying agent stored throughout the entire length of the external pile 110 is discharged to the outside to ensure solid construction in the ground, thereby increasing the bearing capacity and creating unstable ground. It has a reinforcing effect.

In the present invention, an auxiliary pile 130 hinged at the lower part of the internal pile 120 protrudes out of the external pile 110, and the auxiliary pile 130 has a cone-shaped protrusion at the inner center of the external pile 110. 114) and is seated in the through hole 116 formed in the lower part of the external pile 110. The protrusion 114 is inserted into the internal pile 120, and the internal pile 120 is formed inside the external pile 110. ) and the auxiliary pile 130 are completely combined, which has the effect of firmly supporting the external pile 110.

In the present invention, the internal pile 120 and the auxiliary pile 130 are inserted into the external pile 110 by inserting and rotating the injection rod 140, and the outlet 113 and the through hole 116 of the external pile 110 ) not only improves the soft ground by penetrating into the ground, but also effectively reinforces the soft ground by increasing the bonding force between the external pile 110 driven into the ground and the soft ground to reinforce the soft ground.

In the present invention, the solidifying agent is stored in the first and second solidifying agent storage pieces 112 and 115 in the external pile 110, and an outlet cover covering the outlet 113 and through hole 116 through which the solidifying agent is discharged ( 113a) and a through-hole cover 116a are provided, respectively, to protect the solidifying agent before discharge.

In the present invention, the internal pile 120 is rotated and inserted into the external pile 110, and the auxiliary pile 130, which is rotatably installed at the bottom of the internal pile 120, is vertically lowered and inserted, There is also an advantage that it is easy to insert the internal pile 120 and the auxiliary pile 130 inside the pile 110.

100: Pile for ground reinforcement
110: external pile 110a: protruding flange
110b: Point 111: Spiral groove
112: First solidifying agent storage section 113: Discharge port
113a: outlet cover 114: protrusion
115: Second solidification agent storage section 116: Penetration port
116a: Through hole cover 117: Protrusion insertion groove
118: Rotating part insertion groove
120: Internal pile
121: spiral protrusion 122: coupling portion
123: Penetration part
130: Auxiliary pile 131: Rotating part
132: Rotation joint
140: holding rod

Claims (6)

a hollow external pile 110 having a spiral groove 111 formed therein and a first solidifying agent storage piece 112 storing the solidifying agent therein disposed inside the discharge port 113;
A helical protrusion 121 is formed inside the external pile 110 and is helically coupled while moving along the helical groove 111, and is rotatably coupled along the inside of the external pile 110, and the helical protrusion 121 an internal pile 120 that pushes the first solidifying agent storage piece 112 to discharge the solidifying agent through the discharge port 113;
It is coupled at the lower part of the internal pile 120, rotates together with the internal pile 120, and is spread by the protrusion 114 at the inner center of the external pile 110, and the second solidifying agent storage piece 115 at the bottom An auxiliary pile (130) that is fixed in the ground by pushing the through hole (116) closed with the through hole cover (116a) to open the through hole (116) and discharge the solidifying agent to the outside through the through hole (116);
Piles for ground reinforcement including.
According to paragraph 1,
A cone-shaped protrusion 114 is formed at the inner center of the external pile 110, an internal pile 120 is seated on the upper part of the protrusion 114, and the external pile 110 and the internal pile 120 are integrated. is formed by;
When the internal pile 120 is coupled to the external pile 110, the outlet cover 113a covering the outlet 113 is connected to the first solidifying agent storage piece 112 by the coupling of the internal pile 120. opens by being pushed out
Piles for ground reinforcement.
According to paragraph 1,
The upper surface of the external pile 110 is open to insert the internal pile 120 to which the auxiliary pile 130 is coupled, and the spiral protrusion 121 of the internal pile 120 is formed through the protrusion insertion groove 117 on the inner side. is inserted, and the rotating part 131 of the auxiliary pile 130 is vertically inserted into the rotating part insertion groove 118.
Piles for ground reinforcement.
According to paragraph 1,
The auxiliary pile 130 is rotated on the outer peripheral surface of the coupling portion 122 at the bottom of the internal pile 120 when the internal pile 120 is coupled with the external pile 110.
Piles for ground reinforcement.
According to paragraph 1,
The internal pile 120 and the external pile 110 are coupled by rotating by the holding rod 140 inserted into the penetration part 123 formed at the center of the upper surface of the internal pile 120.
Piles for ground reinforcement.
According to paragraph 1,
The solidifying agent is injected into the penetration part 123 of the internal pile 120, and a hole through which the penetration part 123 is connected is formed, and the solidifying agent is discharged through the hole.
Piles for ground reinforcement.