KR101138298B1 - Anchor typed concrete filled pile and construction method using the same - Google Patents

Abstract

PURPOSE: An anchor type concrete filling pile and a construction method are provided to use a concrete filling pile system and perform a certain anchor body function with respect to the ground. CONSTITUTION: An anchor type concrete filling pile(A1) comprises a lower support pile(200) and an anchor leg assembly(100). The lower support pile comprises a guide member for an anchor leg assembly(210). The guide member for an anchor leg assembly comprises a center plate(211) and guide member(212). The guide member is installed in the outer circumference of the center plate to in a radial shape, thereby being communicated to outside. The anchor leg assembly is inserted into inside of the lower support pile. The anchor leg assembly is composed of an anchor leg(110) and hollow member(120).

Description

Anchor-type concrete filling pile and construction method {ANCHOR TYPED CONCRETE FILLED PILE AND CONSTRUCTION METHOD USING THE SAME}

The present invention relates to an anchor type concrete filling pile and its construction method. More specifically, the present invention relates to an anchor-type concrete-filled pile and its construction method that can secure a pile support force and bearing capacity by installing a pile in an anchor manner.

Typically, piles are structural members that transfer loads transmitted from the foundation to the ground. These files are often used PHC file or steel pipe pile, concrete filled steel pipe is also introduced.

Figure 1a shows a construction example of a conventional concrete filled steel tube (CFT).

The concrete-filled steel pipe pile is formed by first forming a perforated hole 20 having a predetermined depth in the ground 10, and then filling the filler 40, which is concrete, in the perforated hole 20.

Unlike the method of filling the filling material 40, such as concrete, directly into the perforation hole, such a concrete filled steel pipe pile is filled with the filling material 40, such as concrete, inside the steel pipe, so that the concrete is constrained by the steel pipe, compressive strength and bending rigidity The advantage is that it can effectively resist against.

In addition, it also has the advantage that the fire resistance by the steel pipe can be improved.

However, this concrete-filled steel pipe pile has a problem in that it is very vulnerable to tensile force because it corresponds to the tensile force by the frictional force of the steel pipe and the surrounding ground with respect to the tensile force (or pull force).

That is, since there is no separate bulb-shaped means at the lower end of the tensile force, it was difficult to effectively cope with the tensile force.

Looking at the concrete filling pile introduced to improve this problem with reference to Figures 1b and 1c as follows.

That is, the drilling hole 20 for the concrete filling pile construction in the ground 10 is formed, the drilling hole 20 passes through the upper ground layer 11, the upper portion (H1) of the lower ground layer 12 ) Over the

Install a ground connector 30 including a reinforcing bar assembly 31 extending from the lower ground layer 12 to a part of the upper ground layer 11 to a height H2 in the inner side of the drilling hole 20,

The filler 40 including concrete is injected into the boring hole 20 to bury the ground connector 30, and then cured.

More specifically, as shown in FIG. 1B, since the foundation of the building forms a constant foundation floor 13, in order to construct a concrete filling pile from the top of the foundation floor 13, first, the extension hole 14 of the square or circular section is first formed. It is formed to have a predetermined thickness.

Next, the anchor bar 70 is installed to extend downward from the expansion hole 14 to be fixed to the bottom of the base bottom 13.

The anchor bar 70 works by using a bar formed in the form of a steel bar 71 and the support plate 72 fixed to the lower end of the bar 71 so that the position is initially set. In addition, by attaching the cover plate 73 to the support plate 72 fixed to the bar 71 to increase the pressure area.

For example, the anchor bar 70 may be used to restrict the plurality of bars 71 to a circular reinforcement to form a circle.

Next, as shown in FIG. 1C, the foundation bottom drilling hole 15 penetrates the foundation bottom 13 at a substantially central portion of the expansion hole 14.

In this way, the drilling hole 20 for constructing the concrete filling pile in the ground 10 of the lower part of the building foundation using the foundation floor drilling hole 15 is continuously formed below using the augering equipment, etc. not shown. Done.

At this time, it is assumed that the ground 10 is formed of an upper ground layer, which is a general soil layer, and a lower ground layer, which is a weathered soil layer or a rock layer, having different properties from the soil layer.

Accordingly, it can be seen that the perforation hole 20 is formed to a certain depth H up to a partial depth H1 of the lower ground layer over the upper ground layer.

For the purpose of classification, the drilled hole formed in the upper ground layer is referred to as the upper drilled hole 21, and the drilled hole formed in the lower ground layer is referred to as the lower drilled hole 22.

Next, the steel pipe 50 is inserted into the inner surface of the upper ground layer 11. The steel pipe is inserted to be set in the inner center of the anchor bar (70).

The steel pipe 50 may be a circular steel pipe, and prevents this because of the possibility of collapsing in the case of an empty wall state after the upper ground layer 11, which is the earth and sand layer, is prevented, and the fillers 40 and 41 will be described below. , 42) also serves as a form of formwork when filled with concrete.

The steel pipe 50 is inserted into the upper drilling hole 21 is used so that its length is adjusted so that the upper end is extended to the inside of the expansion hole 14 via the base bottom (13).

Next, the high-strength mortar 81 is press-fitted through the base bottom drilling hole 15 formed in the base bottom 13 so that the anchor bar 70 previously installed is securely fixed.

Therefore, it can be seen that the support plate 72 of the anchor bar 70 is completely fixed by the curing of the high strength mortar 81 at the bottom of the base bottom 13.

Furthermore, the bottom surface of the lock plate 82 is set at the bottom surface of the expansion hole 14 between the installed steel pipe 50 and the upper end of the anchor bar 70 so that the steel pipe 50 and the anchor bar 70 are formed on the foundation bottom ( 13) to be fixedly set integrally with each other.

Next, the ground connector 30 is inserted into the drilling hole 20.

The ground connector 30 is embedded in the lower concrete filling pile (B) so that the function is not drawn out when the tensile force occurs in the upper concrete filling pile (A) will eventually have a bulbous role.

To this end, the ground connector 30 may be used as a steel rod form as shown in Figure 1c, but may also use a reinforcing bar assembly (31).

The reinforcing bar assembly 31 is bound to each other in a bundle of deformed steel reinforcement bundles can be easily manufactured in the field has the advantage of being very economical.

The ground connector 30 is adjusted to its length so as to extend from the lower ground layer 12 to the partial height H2 of the upper ground layer 11 based on the installed state.

The reason for adjusting the length as described above is that the upper filling file is embedded in the lower filling file by the ground connector 30 by the filler 40 to be charged later, so that the lower filling file by the fat connector is like the bulb of the upper filling file. It works, but the extension length is large, but the economical and constructability is less.

It can be seen that the concrete filling pile can ensure only the minimum length necessary to effectively cope with the tensile force (or pull force).

Next, the filling material 40 such as concrete is filled up to the inside of the steel pipe extending to the inside of the perforation holes 20, 21, and 22 and the bottom of the foundation.

The ground connector 30 set in the drilling hole can be seen that all buried by the filler 40 all.

The filler 40 is filled with the lower filler 42 which is concrete directly to the lower punched hole 22, and the upper filler 41 is filled into the upper punched hole 21 and the steel pipe 50. It can be seen.

As a result, it can be seen that the concrete filled pile is constructed in the form of a concrete filled steel tube (CFT) to be constructed in the form of a lower filled pile (B) filled with concrete in the upper filled pile (A) and the lower filled hole. have.

Next, when the expansion hole 14 formed in the base bottom 13 is finished using high strength mortar 81, the construction of the final concrete filling piles (A, B) is completed.

Therefore, the conventional concrete filling pile is installed so as to fill the ground connector 30 in the filling material 40, such as concrete filled therein, but this is to be formed in the drilling hole or steel pipe, so there is a limit to the role of bulbs There must be,

The angle bar 70 is formed to be formed outside the drilling hole, but has a part of the anchor function, but is to be supported on the bottom of the base bottom 13, so that the anchor bar 70 cannot be used in the site without the base bottom 13. Not only that,

Since the process for installing the anchor bar 70 can only be added, there is a limit that the bearing capacity of the pile can only be secured by the tip bearing capacity of the final concrete filling piles (A, B).

Therefore, the present invention is basically to use the concrete filling pile method, but to provide an anchor-type concrete filling pile and construction method that can provide a more effective final concrete filling pile by allowing the pile to have a certain anchor body function on the ground to solve the problem The technical problem to be made.

According to an aspect of the present invention,

First, the concrete filling pile to be installed, but before the concrete filling anchor leg assembly is installed on the lower support pile constituting the concrete filling pile, the anchor leg assembly is projected to the outside from the lower support pile to be embedded in the ground to be formed The anchor leg assembly to act as an anchor body of the concrete filling pile (anchor-type concrete filling pile)

Second, the anchor leg assembly can be easily installed on the lower support pile by allowing the guide member, which serves as a guide member, to be formed in the lower support pile in advance so that the anchor leg assembly is embedded in the outer support from the lower support pile. It was made.

Third, the anchor leg assembly is extended and protruded to the upper portion of the lower support pile to be used as a head reinforcing reinforcement assembly for the foundation construction.

The scope of the present invention is shown by the following claims rather than the above description, and all changes or modifications derived from the meaning and scope of the claims and their equivalents should be construed as being included in the scope of the present invention. do.

The pile according to the present invention basically has a concrete filled steel pipe function by allowing concrete to be filled in the lower support pile, and the anchor leg assembly protrudes from the lower support pile to the surrounding ground to serve as a kind of anchor body bulb. Since the pile can act as an anchor, it is possible to secure highly effective pile support, thus reducing the number of pile installations.In addition, the concrete filling pile can be used to replace the foundation of independent foundation by laying concrete on the ground. Therefore, it is very efficient in basic construction and economical basic construction is possible.

Figure 1a is a construction cross-sectional view of a conventional concrete filling pile,
Figure 1b and 1c is a construction sequence diagram of a conventional concrete filling pile,
2a, 2b, 3a and 3b is an assembled perspective view of the anchor-type concrete filling pile according to the present invention,
4a, 4b and 4c is a construction sequence diagram of the anchor-type concrete filling pile according to the present invention.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. 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 the drawings, parts irrelevant to the description are omitted in order to clearly describe the present invention, and like reference numerals designate like parts throughout the specification.

[Anchor type concrete filling pile (A1) of the present invention]

2A and 2B show one embodiment of the anchored concrete filling pile A1 of the present invention.

First, the lower support pile 200 is provided, the lower support pile 200 may use a circular steel pipe (pipe member).

Since the lower support pile 200, which is a circular steel pipe, may be filled with a filler 300 such as concrete or earth and sand, since the inside thereof is hollow, it is installed to be formed by inserting a hole 410 in the ground 400.

In the lower support pile 200, the anchor leg assembly guide member 210 is formed in advance so that the anchor leg assembly 100 can protrude to the ground outside the lower support pile 200.

The guide member 210 for the anchor leg assembly has a central axis of a circular or rectangular central plate 211 having a size smaller than the inner diameter of the lower support pile 200 on the lower support pile 200 (vertical) center axis line. Consists of the guide member 212 radially inclined downward to the outer peripheral surface of the central plate 211 to match.

At this time, the guide member 211 has a function for guiding the anchor legs to be described later may use a circular tube.

In this case, the circular guide member 211 is extended to the inner circumferential surface of the lower support pile 200, so that the through hole 220 is formed in advance so that the guide member 211 can pass through the lower support pile 200. do.

The guide member 212 is set by the center plate 211 is formed to be in communication with the outer ground 400 of the lower support pile 200 to extend radially in the lower support pile 200. Can be.

The anchor leg is inserted into the lower support pile 200 from the top to extend through the guide member 212 to the ground 400 outside the lower support pile 200, each anchor leg of the anchor leg assembly 100 of the present invention (110).

When looking at the anchor leg assembly 100, each of the anchor leg 110 is radially arranged to correspond to the position of the formation of the guide member, the anchor leg 110 while setting the position of each other of the anchor leg 110 ) Is to include a hollow member 120 formed of a circular steel pipe in order to resist the load caused by the guide member (212).

In this regard, it can be seen that the anchor leg 110 is radially disposed on the outer circumferential surface of the hollow member 120 by welding or the like, and the hollow member is disposed at an approximately intermediate portion of the anchor leg 110 so that the hollow member ( It can be seen that the anchor leg 110 extends upward and downward.

When the anchor leg assembly 100 consisting of the anchor leg 110 and the hollow member 120 is inserted into the lower support pile 200, but the bottom surface is in contact with the central plate 211 installed inside the lower support pile 200. When inserted up to the anchor leg 110 is guided to the guide member 212 while being protruded to extend outside the lower support pile 200 to be embedded in the surrounding ground 400 to be formed.

That is, the anchor leg 110 serves as an external bulb of the concrete filling pile of the present invention so that the concrete filling pile according to the present invention can serve as a kind of anchor body.

In addition, the lower support pile 200 is filled with a filler 300, such as concrete or earth and sand, such a filler 300 is formed so that the hollow member 120 is embedded, the effect of reinforcing the lower support pile by the hollow member I can have it.

In addition, the upper end of the anchor leg 110 is projected to the upper support pile 200 to be connected to each other with the internal reinforcement reinforced on the building foundation concrete, or the threaded portion 111 is formed to be connected to the other reinforcement with each other by couplers. It is embedded in the building foundation concrete and plays the role of tofu reinforcement.

[Anchor type concrete filling pile (A2) of the present invention]

3A and 3B show another embodiment of the anchored concrete filling pile A2 of the present invention.

2A and 2B is different from the anchor-type concrete filling pile A1 is different from the coupling form of the hollow member 120 and the anchor leg 110 will be described later.

First, a lower support pile 200 is provided as shown in FIGS. 3A and 3B, but the lower support pile 200 may use a circular steel pipe (pipe member).

The lower support pile 200, which is a circular steel pipe, can also fill the filling material 300 such as concrete or earth and sand, since the inside thereof is in a hollow state, and is installed to be formed by inserting a hole 410 into the ground 400. .

In the lower support pile 200, the anchor leg assembly guide member 210 is formed in advance so that the anchor leg assembly 100 can protrude to the ground outside the lower support pile 200.

The guide member 210 for the anchor leg assembly also has a central axis of a circular or square central plate 211 having a size smaller than the inner diameter of the lower support pile 200 on the lower support pile 200 (vertical) center axis line. To coincide with the guide member 212 radially inclined downward on the outer circumferential surface of the central plate 211.

At this time, the guide member 211 also has a function for guiding the anchor legs to be described later may use a circular tube. In this case, the circular guide member 211 is extended to the inner circumferential surface of the lower support pile 200, so that the through hole 220 is formed in advance so that the guide member 211 can pass through the lower support pile 200. do.

Accordingly, the guide member 212 set by the central plate 211 is radially extended in the lower support pile 200 so as to communicate with the outer ground 400 of the lower support pile 200. Able to know.

The anchor leg is inserted into the lower support pile 200 from the top to extend through the guide member 212 to the ground 400 outside the lower support pile 200, each anchor leg of the anchor leg assembly 100 of the present invention (110).

When looking at the anchor leg assembly 100, each of the anchor leg 110 is radially arranged to correspond to the position of the formation of the guide member, the anchor leg 110 while setting the position of each other of the anchor leg 110 ) Is the same to include a hollow member 120 that can be formed of a circular steel pipe to resist the load caused by the insertion of the guide member (212).

In this regard, it can be seen that the anchor leg 110 is radially disposed on the outer circumferential surface of the hollow member 120 by welding or the like. In particular, the anchor leg 110 is disposed at the bottom of the hollow member 120. It can be seen that the anchor leg 110 extends only below 120, which may be referred to as a difference from the anchor leg assembly 100 according to FIGS. 2A and 2B.

When the anchor leg assembly 100 consisting of the anchor leg 110 and the hollow member 120 is inserted into the lower support pile 200, but the bottom surface is in contact with the central plate 211 installed inside the lower support pile 200. When inserted up to the anchor leg 110 is guided to the guide member 212 is protruded to extend to the outside of the lower support pile 200 to be embedded in the surrounding ground 400 is the same.

That is, it can be seen that the anchor leg 110 serves as an outer bulb of the concrete filling pile of the present invention to enable the concrete filling pile of the present invention to serve as an anchor body.

In addition, the lower support pile 200 is also filled with a filler 300, such as concrete or earth and sand, such a filler 300 is placed so that the lower end of the hollow member 120 is embedded to reinforce the lower support pile hollow member. Being able to have the same effect is the same.

In addition, the upper end of the hollow member 120 is projected to the upper portion of the lower support pile 200 to be embedded in the building foundation concrete, it can be seen that such a hollow member will eventually serve as a conventional head reinforcement reinforcement.

[Anchor type concrete filling pile (A1, A2) construction method of the present invention]

First, the construction method of the anchor-type concrete filling file (A1) according to Figure 2a of the anchor-type concrete filling file of the present invention in order.

First, as shown in FIG. 4a, the lower support pile 200 is prepared.

The lower support pile 200 is to use a circular steel pipe, but the tip is to use a file of the pointed shape.

Of course, the lower support pile 200 is formed with a guide member 210 for anchor leg assembly composed of a central plate 211 and a guide member 212, a through hole 220 is formed in communication with the guide member. It becomes.

The extension length of the lower support pile 200 is determined by the support force of the pile and is formed by forming the perforation hole 410 in the ground 400, and the upper end is installed to be exposed from the ground surface.

Next, as shown in FIG. 4B, the anchor leg assembly 100 including the anchor leg 110 and the hollow member 120 described above is inserted into the lower support pile 200.

At this time, the hollow member 120 is installed until the bottom surface is in contact with the upper surface of the central plate 211 and the anchor leg 110 is extended along the guide member 210 for anchor leg assembly by the method of press-fitting etc. It will be installed to be embedded in.

In the state where the final anchor leg 110 is installed it can be seen that the upper end of the anchor leg 110 is extended to the upper portion of the lower support pile 200.

Next, as shown in FIG. 4C, the foundation concrete (not shown) is poured so that the anchor leg 110 protruding upward may be embedded to complete the final pile installation.

Of course, the pile of the present invention according to Figure 2b is the upper end of the hollow member 120 is projected to extend to the upper portion of the lower support pile 200 and by pouring the foundation concrete so that the hollow member 120 is extended to the upper portion is embedded You will be able to complete the final file installation.

100: anchor leg assembly
110: anchor leg
120: hollow member
200: lower support pile
210: guide member for anchor leg assembly
211: center plate
212: guide member
220: through hole
300: filling material
400: ground
410: drilling hole

Claims (10)

An upper portion of the tube-shaped member, the anchor plate assembly guide member 210 including a guide member 212 disposed radially on the outer circumferential surface of the central plate and the central plate 211 is installed therein is mounted therein. Lower support pile 200; And
And an anchor leg assembly 100 which is inserted into the lower support pile 200 from an upper portion and includes an anchor leg 110 set to be guided to the guide member on an outer circumferential surface of the hollow member 120. ,
The guide member 212 is formed to communicate with the through hole 220 formed in the outer peripheral surface of the lower support pile 200 so that the anchor leg 110 passes through the lower support pile 200 along the guide member 212. Anchor-type concrete filling pile, characterized in that formed through the hole 220 to be embedded in the ground 400 around the lower support pile 200. According to claim 1, wherein the lower support pile 200 is a circular steel pipe with an open upper portion, the central plate is formed with a size smaller than the diameter of the lower support pile 200, each guide is a circular tube on the outer peripheral surface of the central plate An anchored concrete fill pile, characterized in that the member 212 is disposed. The method of claim 1, wherein the anchor leg assembly 100;
Hollow member 120 is a circular steel pipe; And an anchor leg 110 which is a reinforcing bar disposed to extend downward on an outer circumferential surface of the hollow member 120, wherein the anchor leg 110 is disposed to extend upward and downward of the hollow member 120. Anchor-type concrete filling file, characterized in that. The method of claim 1, wherein the anchor leg assembly 100;
Hollow member 120 is a circular steel pipe; And
It is to be formed to include an anchor leg 110, which is a reinforcing bar disposed to extend downward on the outer peripheral surface of the hollow member 120, the anchor leg 110 is to be disposed to extend only below the hollow member 120 An anchored concrete filling file. The method according to claim 2 or 3
The upper end of the anchor leg assembly 100 is projected to the upper portion of the lower support pile 200 is embedded in the foundation concrete anchor-type concrete filling pile, characterized in that to function as a head reinforcement reinforcement. A lower support pile (200) equipped with a guide member for anchor leg assembly including a guide member installed to communicate with the outside is disposed radially on the central plate and the outer peripheral surface of the central plate therein as an upper open tube member; Installed on the ground,
The anchor leg assembly 100 including the anchor leg set to guide the guide member on the outer circumferential surface of the hollow member is inserted into the lower support file while the anchor leg is guided along the guide member and passes through the through hole formed in the lower support file. To be embedded in the surrounding ground,
Anchor-type concrete filling pile construction method comprising the step of filling the filler 300 inside the lower support pile (200). The method of claim 6,
The lower support pile 200 is a circular steel pipe with an open upper portion, the central plate is formed in a size smaller than the diameter of the lower support pile 200, the guide member 212 each of the circular tube on the outer peripheral surface of the central plate is disposed The guide member 212 communicates with the through hole 220 formed on the outer circumferential surface of the lower support pile 200 so that the anchor leg is guided along the guide member and passes through the through hole formed in the lower support pile to the surrounding ground. Anchor-type concrete filling pile construction method characterized in that it is embedded. The method of claim 6,
The anchor leg assembly 100;
Hollow member 120 is a circular steel pipe; And an anchor leg 110 which is a reinforcing bar disposed to extend downward on an outer circumferential surface of the hollow member 120, wherein the anchor leg 110 is disposed to extend upward and downward of the hollow member 120. Anchor-type concrete filling pile construction method characterized in that. The method of claim 6, wherein the anchor leg assembly 100;
Hollow member 120 is a circular steel pipe; And an anchor leg 110 which is a reinforcing bar disposed to extend downward on an outer circumferential surface of the hollow member 120, but the anchor leg 110 is disposed to extend only below the hollow member 120. Anchor-type concrete filling file construction method characterized in that. The method according to claim 8 or 9
Anchor-type concrete filling pile construction method characterized in that the upper end of the anchor leg assembly 100 is projected to the upper support pile 200 to be embedded in the foundation concrete.

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