KR100926300B1 - Foundation structure reinfoeced by pile and the construction method for the same - Google Patents

Abstract

PURPOSE: A foundation structure reinforced by a pile and a construction method for the same are provided to increase load carrying capacity of the pile by connecting the pile and a bearing capacity foundation. CONSTITUTION: A foundation structure reinforced by a pile comprises a bearing capacity foundation(10) and an reinforcement group pile part(20). A reinforcing bar is arranged on top of the bearing capacity foundation installed on the ground. The reinforcement group pile part is installed on bottom of the pile of the foundation structure reinforced by the pile and has a reinforcement group pile(21), a foundation plate(22) and a timing joint(40). The reinforcement group pile is installed on the lower part of the foundation plate into one body and comprised of a reinforcement pile installed into the ground. The foundation plate is installed in the bottom surface of the bearing capacity foundation. The timing joint is installed between the foundation plate bearing capacity foundations.

Description

Pile reinforcement bearing structure and its construction method {FOUNDATION STRUCTURE REINFOECED BY PILE AND THE CONSTRUCTION METHOD FOR THE SAME}

The present invention relates to a pile reinforcement bearing structure and its construction method, and more particularly, to pile load bearing capacity to increase the load-bearing capacity by connecting the pile and bearing bearing base after the load of a certain portion of the bearing load. And a construction method thereof.

In general, in the case of erecting a building or structure, in order to support the upper structure according to the condition of the ground or the load of the building or structure, the foundation construction to reinforce the ground.

As a result, a shallow foundation or a deep foundation is performed according to various conditions such as the load of the structure and the ground condition. The shallow foundation is also called a direct foundation, and the direct foundation is a spread foundation and a mat foundation. Can be classified.

In the case of the shallow foundation, the structure is directly supported on the ground without using the pile, and the pile is used to reinforce the bearing force when the ground under the structure cannot support the load of the upper structure.

On the other hand, when the ground of the lower part of the foundation is composed of a viscous soil layer and cannot secure proper bearing strength, as shown in FIG. 1, a pile reinforced foundation for constructing piles integrally to the bearing foundation is constructed. Doing.

The pile reinforcement bearing capacity system is the bearing strength ensures a sufficient bearing capacity for the load of the upper structure, the pile is to complement the role of supporting the upper structure by suppressing excessive settlement of the bearing base, Figure 2 (b) As shown in Fig. 6, it is preferable that the bearing capacity of the bearing strength base be parallel to the friction pile capable of absorbing the amount of settlement caused.

However, since most of the ground in Korea has a support bedrock within 20 ~ 50m, it is mostly constructed as a pile reinforcement bearing strength using the tip support pile as shown in Figure 2 (a). In the conventional pile reinforcement bearing capacity using the tip support pile, if the pile does not allow the amount of settlement, there is a problem that the stress is concentrated in the pile and the pile may be destroyed first.

In addition, in order to prevent the line destruction of the pile, the strength of the pile itself must be increased, and in order to do this, there is a problem in that the cost is increased because the pile using a high-strength material or the number of piles must be increased.

In addition, in the conventional pile reinforcement bearing capacity structure, because the bearing strength and the pile is unevenly settled, bearing capacity can not bear the load, so the bearing base must be supported or fixedly connected to the pile through a structure such as a beam. Therefore, there is a problem that the amount of the frame for installing the structure for the load transmission is required, the construction cost or installation cost increases.

The present invention is to solve the above problems of the prior art, an object of the present invention is to load the load load capacity of the pile without increasing the cost by connecting the pile and the bearing base after a certain portion of the load on the bearing capacity. It is to provide a pile reinforcement bearing structure that can be increased and its construction method.

In addition, another object of the present invention is to provide a pile reinforcement bearing base structure and its construction method that is easy to connect the bearing base and the pile.

In order to achieve the above object, pile reinforcement bearing strength structure according to the present invention, the reinforcing bar is disposed on the upper and lower ground bearing base is installed on the ground, and the ground on the lower side of the pillar of the structure installed on the bearing base It is configured to further include a reinforcement group pile portion is inserted into the foundation, the reinforcement group pile portion, the base plate is installed on the bottom surface of the bearing strength base, a plurality of integrally installed in the lower portion of the base plate and installed in the ground And a timing joint disposed between the group pile and the foundation plate and the bearing base.

Here, the timing joint is a main body portion formed with a plurality of injection holes provided through the bearing base around the pillar, the bottom portion of the bearing base and the uneven groove to penetrate the upper surface of the base plate, Characterized in that the filler is injected into the body portion through the injection hole.

In addition, the timing joint is characterized in that the elastic member.

In addition, the timing joint is characterized by consisting of a vertical body portion formed by penetrating the bearing base and the base plate in the vertical direction, and a filler injected into the vertical body portion.

The timing joint may include a cap inserted in the head of the pile and embedded in the base plate, and a filler filled in the cap through a hole formed by drilling the bearing base and the base plate. It is done.

In addition, the reinforcement pile is installed to penetrate the ground of the lower portion of the bearing foundation, the connecting member for distinguishing the bearing strength foundation of the upper side of the reinforcement pile in the upper side of the reinforcement pile, and the bearing foundation is a constant load Characterized in that it further comprises a front connection foundation is installed on the upper side of the reinforcement pile divided by the blocking connection member after the burden sag occurs.

In addition, the construction method of the pile reinforcement bearing strength structure according to the present invention, the step of installing a base plate on the upper portion of the reinforcement group after injecting the reinforcement group in the ground at the lower side of the portion where the column of the structure is installed And temporarily installing a timing joint on the foundation plate, installing bearing bearing bases with reinforced reinforcement on the ground, installing pillars of the structure on top of bearing bearing base, and bearing bearing foundations being fixed. It is characterized in that it comprises a step of connecting the bearing base and the reinforcing haul pile by installing the timing joint after the load is sagging occurs.

Here, the installation of the timing joint is formed in the main body portion is formed with a concave-convex groove that penetrates the bottom surface of the bearing strength base and the upper surface of the base plate, the main body portion after the bearing load is subjected to a certain load and sag occurs It is characterized by filling the filler.

In addition, the step of installing the reinforcement pile by intruding the ground of the bearing base, and the step of installing the bearing foundation in which the reinforcing steel is reinforced on the ground in a portion other than the portion where the reinforcement pile is constructed, Installing a blocking connecting member on the bearing strength base, and installing a front connecting foundation on the upper side of the reinforcing pile separated by the blocking connecting member to connect the reinforcing pile and the bearing base. It is characterized by.

According to the present invention as described above, the load of the load can be increased by connecting the pile and the bearing base after the load of a certain portion of the bearing base can be increased, so that the number of piles can be reduced and the structure for the load transmission. Since it is possible to reduce the amount of framing to install the structure, not only can the cost be reduced, but the stress is concentrated on the pile, thereby preventing the risk of the pile being destroyed first.

In addition, according to the present invention, it is possible to use the various timing joints as described above for the bearing base and the pile, and the construction of the bearing base and the pile is stable.

Hereinafter, with reference to the accompanying drawings will be described in detail with respect to the pile reinforcement bearing structure and its construction method according to the present invention.

Figure 3 is a view showing a reinforcing haul pile portion according to the present invention, Figure 4 is a view showing another example of the pile reinforcement, Figures 5 to 8 are views showing a timing joint.

3 to 8, the pile reinforcement bearing capacity structure 1 according to the present invention is composed of a bearing strength foundation 10, a reinforcement group pile portion 20, and a timing joint 40.

The bearing force base 10 is disposed on the ground reinforcement is disposed on the upper and lower parts.

As shown in Figure 3, the reinforcement group pile portion 20 is installed on the lower side of the pillar of the structure installed on the top of the bearing capacity.

The reinforcement group pile portion 20 is composed of a reinforcement group pile 21, the base plate 22 and the timing joint 40.

The reinforcement group pile 21 is integrally installed in the lower portion of the base plate and consists of a plurality of reinforcement piles are installed intruding into the ground, by the interaction between the reinforcement piles to exert resistance and supporting force against differential settlement. The reinforcement group pile 21 may be composed of a variety of piles, such as steel pipe pile or concrete pile, or PHC pile.

The base plate 22 is installed on the upper part of the reinforcement group, the base plate 22 is configured in a shape corresponding to the shape of the pillar of the structure and is configured to have a cross-sectional area larger than the cross-sectional area of the pillar.

A timing joint 40 is provided between the base plate 22 and the bearing base 10. By providing the timing joint 40, it is possible to first apply a certain amount of load to the bearing capacity portion, and then to share the rest of the load with the pile and bearing strength portion according to the stiffness ratio.

5 is a diagram illustrating an example of the timing joint. As shown in Fig. 5, the timing joint 40 is composed of an injection hole 41b, a main body portion 41, and a filler 41a.

A plurality of injection holes 41b are installed around the pillar, and are installed through the bearing force foundation 10.

The main body portion 41 is configured to penetrate the bottom surface of the bearing strength base 10 and the upper surface of the base plate 22 while forming an uneven shape, the uneven shape formed on the bottom surface of the bearing strength foundation 10 and The gap is formed between the concave-convex shape formed on the upper surface of the base plate 22. The main body portion 41 is made of FRP agent in the present embodiment, but is not necessarily limited thereto.

The filler 41a is injected through the injection hole 41b and injected into the injection hole 41b and the main body 41. The filler 41a is made of, for example, a non-shrink grouting material in the present embodiment.

The filler material 41a filled in the main body portion 41 functions as a shear key for the base plate 22 and the bearing strength foundation 10.

In addition, between the upper edge of the base plate 22 and the bottom surface of the bearing base 10, a water stop plate 41c is further installed, until the filler 41a is filled in the main body 41. It is configured to prevent the ground water and the like flow into the main body portion 41.

In addition, a sensor 50 may be provided in the main body portion 41 to configure the load bearing base 10 to measure the amount of sinking when the load bearing base 10 sinks. The sensor 50 may be configured as, for example, a displacement sensor.

The construction procedure of the reinforcement group pile part 20 as mentioned above is demonstrated.

The reinforcement group pile portion 20 is installed before installation of the bearing strength foundation. Prior to the installation of the bearing base 10, the reinforcing group pile 21 is introduced into the ground at the lower side of the portion where the column (C) of the structure is installed. Then, the base plate 22 is installed on the top of the reinforcement group pile 21. At this time, the main body portion 41 is buried in advance on the base plate 22.

Then, install the bearing strength base reinforced with reinforcing bar on the ground, and install the pillar of the structure on top of the bearing base.

In the installation of the timing joint 40, the main body portion 41 in which the recessed surface is formed is formed in advance, and the bearing strength bears a predetermined load. After this occurs, the filler 41a is filled in the main body portion 41 through an injection hole pre-installed in the endurance strength foundation, thereby connecting the reinforcement group pile portion 20 and the endurance strength foundation 10.

6 is a diagram illustrating another example of the timing joint. As shown in Fig. 6, the timing joint 40 is composed of an elastic member 42 such as rubber. When the load bearing base 10 bears a certain amount of load by the structure and the deflection occurs, the elastic member 42 is pressurized by the deflection of the bearing strength base 10, so that the load applied to the bearing strength base 10 is reduced. It is transmitted to the base plate 22 and the reinforcement group pile through the pressurized elastic member.

When configuring a timing joint with an elastic member as in the present embodiment, the thickness of the elastic member and the like can be adjusted in advance so that the bearing strength base and the base plate can be connected after the settlement by calculating the settlement amount of the bearing strength foundation in advance according to the structural design. have.

7 is a diagram illustrating still another example of the timing joint. As shown in Fig. 7, the timing joint is composed of a vertical body portion 43a and a filler 43b filled in the vertical body portion 43a.

In this embodiment, the base plate 22 and the bearing strength foundation 10 are integrally formed. The vertical body portion 43a has a cylindrical shape penetrating the bearing base 10 and the base plate 22 in the vertical direction and the bearing force base 10 and the base plate 22 in the circumferential direction of the cylindrical shape. It is configured to form a concave-convex surface that can penetrate to form a concave-convex shape.

An upper end portion of the reinforcing flock pile 21 is inserted into a lower portion of the vertical main body portion 43a.

The bearing base 10 and the base plate 22 fill the vertical body portion 43a with the filler 43b after the deflection occurs due to a certain amount of load due to the structure. The reinforcement flock pile 21 is configured to be integrated with the timing joint, so that the remaining load can be shared between the reinforcement flock pile and the bearing base portion according to the stiffness ratio.

8 is a diagram illustrating still another example of the timing joint. As shown in FIG. 8, the timing joint is filled with a cap 44 embedded in the base plate, and a filling hole 45a formed by drilling the bearing force base 10 and the base plate 22. It consists of 45b. The cap 44 is fitted with the upper end of the reinforcing group pile. Two perforating holes are provided for each cap, and one perforating hole is used as a hole for injecting the filler, and the other perforating hole is used as a hole in which the filler injected through the perforating hole overflows. It can be configured to confirm that the filling.

Also in this embodiment, the base plate 22 and the bearing strength foundation 10 are integrally formed.

The bearing base 10 and the base plate 22 bear a certain amount of load by the structure, and after the deflection occurs, the filler 45b is filled in the drilling hole 45a to support the bearing base 10 and the reinforcement. The group pile 21 is configured to be integrated with the timing joint, so that the remaining load can be shared between the reinforcement group and the bearing base portion according to the stiffness ratio.

On the other hand, the auxiliary timing joint 30 may be further installed in the bearing strength foundation at portions other than the reinforcement group pile portion 20 is installed.

The auxiliary timing joint 30 is composed of a reinforcement pile 31, a blocking connecting member 32, and a front connecting foundation 33.

The bearing strength base 10 has reinforcing bars 11 and 12 disposed above and below the ground. The reinforcing bar disposed on the bearing force base extends through the blocking connecting member 32 and extends to the part of the front connecting foundation 33.

The reinforcement pile 31 is installed by penetrating through the ground, the reinforcement pile 31 may be composed of a variety of piles, such as steel pipe pile, concrete pile, or PHC pile.

On the upper side of the reinforcement pile 31, a floor concrete (lean concrete) 34 may be installed in advance at the position lower than the bottom surface of the bearing strength base 10 for the convenience of subsequent processes.

The upper side of the reinforcement pile 31 is provided to block the connecting member 32 on the bearing strength base 10 side, it is configured to leave the upper side of the reinforcement pile 31. The blocking connecting member 32 is a member for temporarily blocking the concrete placed on the bearing base 10 for the construction of the connection between the front connection base and the bearing base 10 to be described later, in the embodiment The connecting member is made of metal lath or wood, for example.

After the bearing base installed on the ground bears a certain load by the structure of the upper part and sag occurs, the front connecting base 33 is installed on the upper side of the reinforcement pile separated by the blocking connecting member.

In addition, the bearing base 10 may be installed in the lower portion of the bearing foundation 10 after the ground is improved by crushed stone replacement or crushing using rubble or crushed stone.

The construction procedure of the pile reinforcement bearing capacity structure which concerns on this invention which has the structure as mentioned above is demonstrated.

First, the reinforcement pile 31 is inserted into the ground to install a pile foundation. Then, install the bearing strength base 10 is reinforced reinforcement on the ground in a portion other than the portion where the reinforcement pile 31 is constructed. At this time, in the upper side of the portion in which the reinforcement pile 31 is installed, the blocking connection member 32 is installed in the bearing strength foundation 10 to distinguish the bearing strength foundation.

Then, after the bearing load bears a certain load and deflection occurs, concrete is placed on the upper side of the reinforcement pile 31 separated by the blocking connection member 32 to install the front connection foundation 33. To connect the reinforcement pile and the bearing base.

As described above, after a certain portion of the load is applied to the bearing capacity, the pile and bearing bearing foundation can be connected to increase the load-bearing capacity of the pile without increasing the manufacturing cost, and the stress is concentrated on the pile so that the pile is destroyed first. Can be prevented.

The present embodiment merely shows a part of the technical idea included in the present invention clearly, and modifications and specific embodiments that can be easily inferred by those skilled in the art within the scope of the technical idea included in the specification of the present invention All are included in the technical idea of the present invention.

1 and 2 is a view showing a pile reinforcement bearing strength basis according to the prior art.

3 is a view showing a reinforcing haul pile part according to the present invention.

4 is a view showing another example of the pile reinforcement according to the present invention.

5 to 8 are diagrams showing a timing joint of pile reinforcement bearing strength foundation according to the present invention.

9 is a flowchart showing the construction procedure of pile reinforcement bearing strength foundation according to the present invention.

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

1: Pile reinforcement bearing structure

10: bearing capacity foundation bearing strength foundation pile group

21: reinforcement group pile

30: auxiliary timing joint

40: timing joint

Claims (9)

In pile reinforcement bearing structure, Reinforcement bars are arranged on the upper and lower parts, and bearing strength foundation is installed on the ground, It is configured to further include a reinforcement group pile portion is inserted into the ground from the lower side of the pillar of the structure installed on the top of the bearing capacity, The reinforcement group pile portion, A base plate installed on the bottom surface of the bearing capacity base; A plurality of piles installed integrally with the lower part of the base plate and infiltrated into the ground; A pile reinforcement bearing base disposed between the foundation plate and the bearing foundation, and having a timing joint connecting the foundation plate and the bearing foundation after deflection due to the bearing load under a certain load. structure. The method of claim 1, wherein the timing joint, A plurality of injection holes installed through the bearing base around the pillar; A main body part having an uneven groove formed in the bottom surface of the bearing base and the upper surface of the base plate; Pile reinforcement bearing structure, characterized in that consisting of the filler is injected into the body portion through the injection hole. 3. The pile reinforcement bearing structure according to claim 2, wherein the timing joint is an elastic member. delete The method of claim 1, wherein the timing joint, A cap embedded in the head of the pile and embedded in the base plate; A pile reinforcement bearing structure, characterized in that consisting of the filler is filled in the cap through a hole formed by drilling the bearing base and the base plate. The method of claim 1, A reinforcement pile installed by penetrating the ground of the lower portion of the bearing capacity; Block connection member for distinguishing the bearing strength base on the upper side of the reinforcement pile in the upper side of the reinforcement pile, The pile reinforcement bearing structure is characterized in that it further comprises a front connection foundation is installed on the upper side of the reinforcement pile divided by the blocking connecting member after the bearing load bears a certain load. Injecting a reinforcement group into the ground at the lower side of the part where the pillar of the structure is installed, and installing a base plate on the upper part of the group; Temporarily installing a timing joint on the base plate; Installing a bearing base on which the reinforcing bars are placed on the ground; Installing a pillar of the structure on top of the bearing capacity base; Connecting the bearing foundation and the reinforcement group pile by installing the timing joint after the bearing foundation bears a certain load and sag occurs. Construction method of pile reinforcement bearing strength structure, characterized in that comprising a. The method of claim 7, wherein the installation of the timing joint, Forming a body portion is formed with a concave-convex groove that penetrates the bottom surface of the bearing base and the upper surface of the base plate, and the filler is filled in the body portion after the bearing load is subjected to a certain load and sag occurs. Construction method of pile reinforcement bearing structure. The method of claim 7, wherein Before installing the bearing foundation, installing a reinforcement pile by injecting the soil of the bearing foundation, Installing bearing strength foundations in which reinforcing bars are arranged on the ground in parts other than the parts in which the reinforcing piles are constructed; Installing a blocking connecting member in the bearing capacity at the portion where the reinforcing pile is installed; Connecting the reinforcement pile and the endurance foundation by installing a front joint on the upper side of the reinforcement pile separated by the blocking connecting member when installing the timing joint to connect the bearing force foundation and the reinforcement group. Construction method of pile reinforcement bearing strength structure, characterized in that further comprises.

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