KR101007028B1 - Precasting pile and constructing method for the same - Google Patents

Abstract

PURPOSE: An assembly file and a construction method thereof are form a file by combining segments which are manufactured in advance. CONSTITUTION: An assembly file comprises a plurality of segment member(10) and an binding member(30). A plurality of segment member is laminated on the respective pile in a longitudinal direction. A plurality of segment member is matched along the respective mutual length direction. A through hole(12) is formed on a plurality of segment member. A joint material(20) is inserted in the through hole.

Description

Prefabricated pile and construction method {PRECASTING PILE AND CONSTRUCTING METHOD FOR THE SAME}

The present invention relates to the field of construction and civil engineering, and more particularly, to a pile embedded in the ground to reinforce the ground.

The pile foundation is one of the basic types used when the depth of the support layer is deep, and by constructing an upper structure on the pile embedded into the support layer, it is possible to stably support the weight of the structure in the support layer.

The pile used for the pile foundation is transferred to the site by moving the pile (for example, steel pipe pile) manufactured at the factory, or constructed by a site casting method.

The method of incorporating piles has the advantage of being able to work quickly in the field without time-consuming curing. However, due to manufacturing and transportation conditions, only small diameter piles can be manufactured. There is a disadvantage that the construction is not easy.

On the contrary, the in-site casting method has the advantage of being able to manufacture large diameters, but it has a disadvantage that it takes a lot of time such as curing in the field.

Therefore, there is an urgent need for a new method that can emphasize the advantages of the method of directly accessing the pile and the site-pouring method and solve the disadvantages.

The present invention has been made in order to solve the above problems, it is an object of the present invention to provide a prefabricated pile and its construction method that can be manufactured by the in-situ method in the field by producing the file in advance in the unit of the segment member.

In order to solve the above problems, the present invention is formed in a shape in which the piles are divided in the longitudinal direction (arrow L), respectively, and are stacked along the longitudinal direction (arrow L) and mutually coincident along the mutual longitudinal direction (arrow L). A plurality of segment members 10 having through holes 12 into which the bonding material 20 is injected; Presents a prefabricated pile, characterized in that it comprises a; binding member 30 is inserted into the through-hole 12 of the plurality of segment members 10 to bind the plurality of segment members 10.

The segment member 10 may be provided with a coupling portion 14 having an uneven structure so that the plurality of segment members 10 may be coupled to each other.

The coupling portion 14 of the uneven structure protrudes on any one of both end surfaces of each of the segment members 10, and the key groove 14b of another segment member 10 coupled along the longitudinal direction (arrow L). It may include a key (14a) inserted in.

The key 14a may be formed to be spaced apart from the bottom surface of the key groove 14b by a predetermined distance G.

The through holes 12 may overlap each other in the coupling part 14 of the uneven structure.

Coupling portion 14 of the concave-convex structure may be formed in a ring shape concentric with the pile.

An index member 25 may be interposed between the coupling surfaces of the plurality of segment members 10.

It further comprises a band (40) is welded to surround the engaging portion of the plurality of segment members (10); A band insertion groove 16 into which the band 40 is inserted may be formed on the outer surface of the segment member 10, respectively.

Convex and concave portions 18 and 42 may be formed on the joint surfaces of the segment member 10 and the band 40, respectively.

Ring-shaped grooves 19 concentric with the pile may be formed on the outer surface of each segment member 10.

The segment member 10 may be formed in a hollow shape.

In addition, the present invention to solve the above problems is the drilling step of forming a perforation (2a) on the ground (2); A segment member installation step of installing the plurality of segment members 10 in the perforation 2a; A bonding material injection step of injecting the bonding material 20 into the through holes 12 of the plurality of segment members 10 installed in the perforation 2a; A binding step of inserting the binding member 30 into the through hole 12 of the plurality of segment members 10 installed in the perforation 2a after the bonding material injection step; Give a way.

It is performed between the drilling step and the segment member installation step, it may further comprise a mortar step of injecting the mortar material (1) in the perforation (2a).

In addition, the present invention to solve the above problems is the drilling step of forming a perforation (2a) on the ground (2); A segment member installation step of installing the plurality of segment members 10 in the perforation 2a; A bonding material injection step of injecting the bonding material 20 into the through holes 12 of the plurality of segment members 10 installed in the perforation 2a; A binding step of inserting the binding member 30 into the through holes 12 of the plurality of segment members 10 installed in the perforation 2a after the bonding material injection step; A reinforcement step of installing the reinforcement 100 in the hollow of the plurality of segment members 10; After the step of reinforcement, the present invention provides a construction method of a prefabricated pile comprising a; step of placing the hollow of the plurality of segment members (10).

In addition, the present invention to solve the above problems is the drilling step of forming a perforation (2a) on the ground (2); A primary file installation step of installing the prefabricated pile 4 having a large diameter in the perforation 2a; A reinforcement step of installing the reinforcement 100 in the hollow so as to be concentric with the prefabricated pile 4 of the large diameter prefabricated pile 4; A primary pile installation step of installing a small diameter prefabricated pile 6 having a smaller diameter than the large diameter prefabricated pile 4 in the hollow of the back muscle 100; Presenting a construction method of a prefabricated pile comprising a; step of placing the field between the prefabricated pile (4) of the large diameter and the prefabricated pile (6) of the small diameter.

According to the present invention, as a plurality of segment members pre-fabricated at the factory are joined in the field and are mutually coupled to form a pile, the size and weight of each segment member is significantly smaller than the pile, and thus easy to manufacture, transport, and access work. In addition, large-diameter pile can be formed quickly by the rooting method.

1 to 4 relate to a first embodiment of the present invention.
1 is a partially assembled perspective view.
2 is a side cross-sectional view of FIG.
3 is an exploded side view.
4A to 4D are views showing construction examples.
FIG. 5 relates to a second embodiment of the present invention, and corresponds to FIG.
6 is a view corresponding to FIG. 2 according to a third embodiment of the present invention.
7 and 8 relate to a fourth embodiment of the present invention.
7 is a perspective view of a partially assembled state.
8 is a cross-sectional view of FIG.
9A to 9 are views showing a construction example according to the fifth embodiment of the present invention.
10 is a plan sectional view of FIG. 9D.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1, the prefabricated pile according to the present invention is manufactured in advance by a segment member 10 having a shape in which the pile is divided in the longitudinal direction (arrow L) of the pile, and a plurality of segments in the field. It is characterized in that the members 10 are formed by laminating and assembling along the longitudinal direction (arrow L) of each other.

Therefore, since the file can be divided into small segments and manufactured and transported, not only is it easy to manufacture and transport and install, but also free from constraints due to size and weight, and thus, a large-diameter file can be produced. In addition, it can be quickly installed in the field approach.

As shown in FIG. 6, the segment member 10 may be formed of a solid structure filled with a solid, or may be formed of a hollow structure in which a hollow 10a is formed as shown in FIG. 6. Can be.

Segment member 10 may be formed to have a circular cross section as shown, the cross-sectional shape is not necessarily limited to a circular, of course.

The segment member 10 may be formed in the same standard (eg, diameter, length, etc.) and shape as shown in the figure, two or more types may be assembled according to the standard, shape, of course.

Segment member 10 may be formed in a smooth flat surface without the outer surface, the groove 19 may be formed to increase the main surface friction when the pile is in the ground. The groove 19 of the segment member 10 may be determined in number, shape, etc. according to the size, material, etc. of the segment member 10. Preferably, the groove 19 of the segment member 10 is formed in a ring shape concentric with the pile as shown. Giving uniformly along the direction may allow the friction force to be increased.

The segment member 10 may be made of concrete to form a concrete pile that is commonly used, and may be formed of various materials such as steel pipes in addition to the use of the pile.

In addition, the present invention is characterized in that the plurality of segment members 10 are bound to one by the binding member 30 to form a pile integrally.

That is, one binding member 30 is simultaneously mounted to the plurality of segment members 10 assembled in the longitudinal direction (arrow L) along the assembly direction of the plurality of segment members 10, that is, the longitudinal direction (arrow L). Each segment member 10 may be provided with a through hole 12 into which the binding member 30 is fitted along the longitudinal direction (arrow L).

Here, since the binding member 30 is vertically fitted in the longitudinal direction (arrow L) to the plurality of segment members 10 is more advantageous in terms of the installation and manufacturing side of the binding member 30, the plurality of segment members ( The through holes 12 of 10 may be formed to be mutually aligned along the longitudinal direction (arrow L).

The through holes 12 of the respective segment members 10 may be formed in a plurality along the circumferential direction of the pile so that the mutual binding of the plurality of segment members 10 is more firm, uniform and stable.

The binding member 30 may be made of any material as long as it can firmly and easily bind the plurality of segment members 10, and may be preferably made of rebar.

Furthermore, the present invention is characterized in that the bonding material 20 is injected into the through-hole 12 of the segment member 10.

Therefore, the plurality of segment members 10 may be more firmly integrated with each other by the bonding force of the bonding material 20 by the bonding material 20. In addition, as the through hole 12 of the segment member 10 is completely filled by the bonding material 20, relative movement between the plurality of segment members 10 may be prevented, and the segment member 10 and The binding member 30 may also be firmly integrated with each other. In addition, since the through-hole 12 of the segment member 10 is completely filled by the bonding material 20, the diameter of the through-hole 12 of the segment member 10 may be larger than that of the binding member 30. As a result, the binding member 30 can be easily fitted into the through hole 12 of the segment member 10, and the bonding material 20 can be easily injected into the through hole 12 of the segment member 10. Can be.

The bonding material 20 may be used in various ways depending on the material of the segment member 10, the material of the binding member 30, and the like, and a non-shrink mortar may be used when the segment member 10 is concrete as a pile for construction and civil engineering. .

As such, the method of coupling the plurality of segment members 10 to each other by the bonding material 20 and the binding member 30 is a method of no welding, that is, no welding. Since the pile members can be formed while the segment members 10 are inserted into the perforations 2a one by one without being entered into the perforations 2a after mutual assembly, the installation work of the piles is easier.

In addition, the present invention may be provided with a coupling portion 14 of the concave-convex structure in the segment member 10 so that the plurality of segment members 10 can be coupled to each other.

Therefore, the plurality of segment members 10 may be more firmly and stably coupled by the coupling portion 14 of the uneven structure. In particular, the plurality of segment members 10 may be coupled to form a concentric concentric, thereby not only excellent construction, but also through holes 12 of the plurality of segment members 10 can be easily matched with each other, so that the binding member Installation of the 30 can be facilitated.

The uneven structure coupling part 14 may be formed in various shapes and numbers. Preferably, the plurality of segment members 10 are uniformly coupled to each other along the circumferential direction of the pile by the uncoupling structure part 14 of the uneven structure. It can be formed in a ring shape concentric with the pile so that it can be.

Coupling portion 14 of the concave-convex structure may be formed so as not to interfere with the through-hole 12 structurally, as shown in the through-hole 12 is formed may have the following advantages. That is, as the coupling portion 14 of the uneven structure is connected to the through hole 12, the bonding material 20 injected into the through hole 12 also flows into the coupling portion 14 of the uneven structure, thereby providing a plurality of segment members ( The bonding area by the bonding material 20 of the 10) is secured wider, the bonding force of the plurality of segment members 10 can be significantly increased.

Coupling portion 14 of the concave-convex structure may be formed in various ways, and as another preferred example, another segment member 10 protruded on either side of each end surface of each segment member 10 to be joined along the longitudinal direction (arrow L). It may include a key (14a) is inserted into the key groove (14b) of.

The key 14a and the key groove 14b may be formed in various shapes. In particular, the key 14a may be formed so as to be spaced apart from the bottom surface of the key groove 14b by a predetermined distance (G), so that the bonding material 20 has a larger amount between the key 14a and the key groove 14b. Can be introduced.

On the other hand, the interfacial material 25 for preventing the penetration of water may be interposed on the mutual coupling surface of the plurality of segment members 10. The index member 25 may be interposed outside the through hole 12 of the segment member 10 and the coupling portion 14 of the uneven structure along the radial direction of the pile in order to protect the bonding material 20 from moisture infiltration. have. The index member 25 may be interposed in a ring shape concentric with the pile so as to be interposed on the front circumference of the pile.

In addition, as shown in FIG. 5, a band 40 welded around the coupling portion of the plurality of segment members 10 may be further included. In this case, the mutual coupling of the plurality of segment members 10 may be more firm by the band 40, and the mutual coupling portions of the plurality of segment members 10 may be hidden and protected. Here, the band insertion groove 16 into which the band 40 is inserted may be formed on the outer surface of the segment member 10, and thus the band 40 may be installed so as not to protrude from the segment member 10. The installation position of the band 40 can be determined. In addition, the joint surface of the segment member 10 and the band 40 may be formed with uneven portions (18, 42) to be matched with each other, so that the coupling force of the segment member 10 and the band 40 is more Can be increased. The band 40 may be formed of various materials, and may be formed of a steel plate as a preferred example.

Such a prefabricated pile according to the present invention may be assembled into the perforated 2a after being assembled outside the perforated 2a, but may be more preferably constructed as follows with reference to FIGS. 4a to 4d. .

That is, the prefabricated pile according to the present invention includes a drilling step (FIG. 4A) for forming a perforation 2a in the ground 2; A segment member installation step (FIGS. 4B and 4C) for installing the plurality of segment members 10 in the perforation 2a; A bonding material injection step (FIG. 4C) of injecting the bonding material 20 into the through holes 12 of the plurality of segment members 10 installed in the perforation 2a; After the bonding material injection step, it may include a binding step (Fig. 4d) to insert the binding member 30 in the through-hole 12 of the plurality of segment members 10 installed in the perforation (2a).

That is, the installation of the pile is easier because the segment members 10 are installed one by one instead of the entire pile into the perforation 2a, and the bonding material injected through the through hole 12 of the segment member 10. Outflow of 20 can be prevented.

Here, a disk-shaped member may be first installed at the bottom of the perforation 2a before the segment member 10 is entered.

On the other hand, if necessary, before the installation of the segment member 10 after the drilling step, a mortar step (FIG. 4A) of injecting the mortar material 1 into the perforation 2a may be performed.

7 and 8, if necessary, the hollow 10a of the plurality of segment members 10 may be cast in place. That is, the construction method of the prefabricated pile according to the present invention after the above-mentioned binding step, the reinforcement step of installing the reinforcement 100 in the hollow 10a of the plurality of segment members 10, and the plurality of segment members after the reinforcement step ( 10) may further include a suspension step of mortar cement, grouting material, etc. in the hollow (10a).

As the hollow 10a of the prefabricated pile according to the present invention is placed in the field, the pile foundation may be more firm by the pile pile and the composite pile of the field placing pile by the plurality of segment members 10. In addition, since the plurality of segment members 10 play the same role as the formwork of the site casting file, the site casting can be made more easily.

Such a construction method is an appropriate combination of a construction method in which a pile is directly entered and an in-site casting method, and is particularly advantageous for large pile foundation pile construction.

On the other hand, the construction method of the prefabricated pile according to the present invention can be made as follows, referring to Figure 9a to 10.

That is, the construction method of the prefabricated pile according to the present invention includes a drilling step of forming a perforation (2a) in the ground (2); A primary pile installation step (FIG. 9A) for installing the prefabricated pile 4 having a large diameter in the perforation 2a; A reinforcement step (FIG. 9B) for installing the reinforcement 100 in a hollow shape so as to be concentric with the prefabricated pile 4 of the large diameter prefabricated pile 4; A secondary pile installation step (FIGS. 9C, 9D, and 10) for installing the prefabricated pile 6 having a smaller diameter than the large diameter prefabricated pile 4 in the hollow of the back muscle 100; It may include a step of placing the field between the prefabricated pile 4 of the large diameter and the prefabricated pile 6 of the small diameter.

Such a process is particularly advantageous for large diameter pile foundations and may have the effect of a composite pile. At this time, the hollow of the prefabricated pile (6) of small diameter can be secured sufficient strength even if the site is not cast.

Although the preferred embodiments of the present invention have been described above by way of example, the scope of the present invention is not limited to these specific embodiments, and may be appropriately changed within the scope described in the claims.

10; Segment member 12; Through hole
14; Coupling portion 14a of the uneven structure; key
20; Bonding material 30; Binding member
40; band

Claims (15)

Each of the hollow piles is formed in a shape divided in the longitudinal direction (arrow L) to be laminated along the longitudinal direction (arrow L) and coincide along the mutual longitudinal direction (arrow L), respectively, and penetrating through which the bonding material 20 is injected. A plurality of segment members 10 having holes 12 formed therein, a binding member 30 fitted into the through holes 12 of the plurality of segment members 10 to bind the plurality of segment members 10, and the plurality of segment members 10. As a method of constructing a prefabricated pile including a coupling portion 14 of the concave-convex structure formed in the segment member 10 so that the segment members 10 of the, can be coupled to each other,
A perforating step of forming perforations 2a in the ground 2;
The plurality of segment members 10 in the perforations 2a to be stacked along the longitudinal direction (arrow L) while the plurality of segment members 10 are coupled to each other by the coupling portion 14 of the uneven structure. Segment member installation step of installing;
A bonding material injection step of injecting the bonding material 20 into the through holes 12 of the plurality of segment members 10 installed in the perforation 2a;
A binding step of inserting the binding member 30 into the through holes 12 of the plurality of segment members 10 installed in the perforation 2a after the bonding material injection step;
Construction method of a prefabricated pile comprising a. The method according to claim 1,
A method of constructing a prefabricated pile, which is performed between the drilling step and the segment member installation step, further comprising a mortar step of injecting mortar material (1) into the perforation (2a). The method according to claim 1,
A reinforcement step of installing the reinforcement 100 in the hollow of the plurality of segment members 10;
After the reinforcement step, the step of placing the hollow of the plurality of segment members 10 in situ;
Construction method of the prefabricated pile further comprising a. The method according to claim 1,
Reinforcement step of installing the reinforcement (100) in a hollow in the hollow of the plurality of segment members (10);
A secondary segment member installation step of further installing segment members 10 having a diameter smaller than those of the segment members 10 installed in the hollow of the reinforcement 100;
A step of placing the spot between the segment members 10 and the segment members 10 installed before the secondary segment member installation step;
Construction method of the prefabricated pile further comprising a. The method according to any one of claims 1 to 4,
Construction method of the prefabricated pile, characterized in that the index member (25) is interposed on the mutual coupling surface of the plurality of segment members (10) in the segment member installation step. The method according to any one of claims 1 to 4,
Construction method of the prefabricated pile, characterized in that the band (40) is welded around the engaging portion of the plurality of segment members in the segment member installation step. delete delete delete delete delete delete delete delete delete

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