KR101572561B1 - Steel assembly for Pile - Google Patents

Abstract

The present invention relates to a steel assembly for installing an H-pile providing excellent soil bearing power and facilitating the installation of a retaining wall by forming a supporting unit such as timber by arranging a steel member in accordance with a direction where soil pressure is applied. The steel assembly is composed of an inner flange positioned inside the retaining wall; an outer flange spaced from the inner flange and positioned outside the retaining wall; and a pair of web members interposed between the inner and outer flanges and having ends joined to the inner and outer flanges respectively and including an internal space. The width of the inner flange is larger than the distance between the ends of the web members joined to the inner flange. The present invention is characterized by including locking units between the underside of the inner flange and the outer surface of the web members.

Description

Technical Field [0001] The present invention relates to a steel assembly for pile construction,

More particularly, the present invention relates to a steel material assembly for constructing an earth retaining pile, and more particularly, to a steel material assembly in which a steel material is disposed in a direction in which earth pressure acts, And more particularly, to a steel assembly for constructing a thumb pile for facilitating construction of a wall.

When excavating the ground to construct an underground structure, the earth retaining wall is constructed to stabilize the excavation surface. The method of constructing the retaining walls varies depending on the ground conditions and the size of the earth pressure to be supported. Of these, the CIP method is easy to construct and has good rigidity, and can be applied to most grounds other than gravel and rocky ground Has been applied in the field.

In the case where the lower part of the ground to be installed with the earth retaining wall 10 is made of rock or the earth retaining wall is required to support a very large earth pressure, as shown in FIG. 1, the H file as the thumb pile 11 I) can be installed and reinforced so that the CIP method can be applied. However, H - file has a symmetrical cross - sectional shape compared with the earth pressure in the horizontal direction. Therefore, it can not be said that the H - file effectively supports the earth pressure as a bending material. In addition, when the H file is installed, since the space in the hole is partitioned by the flange and the web of the H file in the process of installing the H file in the perforation hole and pouring concrete, it is difficult to install the trailer pipe in the perforation hole Therefore, the concrete should be poured at the top of the perforation hole and poured. Therefore, the material separation phenomenon may occur and the concrete may not be filled tightly in the perforation hole.

In addition, as the thumb pile, a centrifugal molded pile pile may be used in addition to the above-mentioned H file. Since the centrifugal molded pile pile is manufactured at a factory, the quality is stable. In the case of using a centrifugal molded pile pile with a thumb pile, It is not necessary to pour concrete to form it, so that the air can be shortened. However, in some cases, it is necessary to install a rock plate or a shotcrete wall between the thumb piles of the rock section while excavating the ground after installing the retaining wall. In the case of using the H file as the thumb pile, It is possible to support the earth plate in the space between the flange and the web of the H file, but when the centrifugal molded pile pile is used as the thumb pile, the centrifuge formed pile pile has a circular section closed by the concrete Therefore, there is a problem that it is not easy to install a soil plate or the like because an insert bolt or the like must be installed in order to install a soil plate or a shotcrete wall. In the case of using the H file as the thumb pile, it can be said that the work is comparatively easy in the case of supporting the earth plate, etc. However, in the operation of crushing the concrete to a certain depth of the H file web, the operation is troublesome have.

It is an object of the present invention to solve the problems of the prior art as described above, and it is an object of the present invention to provide an apparatus and a method for efficiently supporting earth pressure and a thumb- And an object of the present invention is to provide a steel assembly for pile construction.

According to a preferred embodiment of the present invention, there is provided a steel material assembly for constructing a thumb pile which constitutes an earth retaining wall, the steel material assembly comprising: an inner flange positioned inside the earth retaining wall; An outer flange spaced apart from the inner flange and positioned outside the retaining wall, and a pair of web members positioned between the inner and outer flanges and having end surfaces bonded to the inner and outer flanges, respectively, ; Wherein the width of the inner flange is larger than the distance between the end surfaces of the pair of web members joined to the inner flange so that the engagement portion is provided between the width end portion of the inner flange and the outer surface of the web member. Is provided.

According to another embodiment of the present invention, steel reinforcement is provided on at least the lower side of the entire length of the steel assembly, wherein a reinforcing bar is disposed at an outer flange portion of the filling space.

According to another embodiment of the present invention, the fastening portion is formed by reducing the distance between the pair of web members toward the inner flange toward the outer flange.

According to another aspect of the present invention, there is provided a steel material assembly for thumb-peg construction, wherein the engaging portion is formed by bending the inner flange-side end of each of the pair of web members stepwise toward the inside of the filling space do.

According to another embodiment of the present invention, the outer flange is composed of two half-flange portions joined together with reference to the center of the width, and the half-flange portion is formed by bending at the end of the web member. A steel assembly for installation is provided.

According to another embodiment of the present invention, there is provided a steel assembly for the thumb pile construction, wherein the thickness of the inner and outer flanges is formed to be equal to or greater than the thickness of the web member.

According to another embodiment of the present invention, there is provided a steel assembly for a thumb pile construction, wherein a plurality of through holes are formed in the web member.

Since the steel material assembly according to the present invention is formed by arranging and assembling the steel material in accordance with the direction in which the earth pressure acts, the earth pressure can be effectively supported.

Since each member of the steel assembly is assembled so as to have a closed filling space and when the steel assembly forms the thumb pile of the earth retaining wall, the concrete is placed in the filling space so that the concrete is constrained by the members made of steel It is possible to form a thumb pile having excellent rigidity and to prevent lateral buckling, thereby exhibiting excellent bending strength.

In addition, since the steel assembly has a latching portion on which the dust-collecting plate can pass, it is easy to fix the dust-collecting plate, and when the latching portion is formed by bending the web member, the cross-sectional performance of the steel assembly increases.

When the web member constituting the steel assembly and the half of the outer flange are integrally formed, it is possible not only to reduce the number of welds in manufacturing the steel assembly, but also to easily fix the reinforcing steel in the filling space. It is possible to reduce costs and labor.

The inner and outer flanges constituting the steel assembly are formed to be thicker than the web members to reinforce the rigidity against tensile stress or to prevent the steel assembly from being broken by the installation of wales, brackets and the like.

The through hole formed in the web member enhances the earth pressure holding force of the earth retaining wall by allowing the concrete to be pushed tightly from the bottom of the filling space and the space outside the filling space.

FIG. 1 is a cross-sectional view of an example in which a thumb pile made of H-files is installed in the construction of the earth retaining wall according to the prior art.
2 is a cross-sectional view and a perspective view of a steel assembly according to the present invention.
FIG. 3 is an explanatory view of an effect of a steel material assembly having a latch portion in comparison with a thumb pile made of a conventional H-shaped steel. FIG.
Figure 4 shows various embodiments of how the web member and the outer flange of the steel assembly are formed.
5 is a perspective view of a steel assembly when a through-hole is formed in the web member.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, however, it is to be understood that the present invention is not limited to the disclosed embodiments.

The steel material assembly 100 according to the present invention is used for the construction of the thumb pile 11 constituting the earth retaining wall 10 and the steel material assembly 100 is mainly constructed by the CIP method The steel material assembly 100 may be applied to the earth retaining wall body 10 formed of the thumb pile 11 and the earth wall or the thumb pile 11 and the shotcrete wall have.

The steel material assembly 100 according to the present invention includes an inner flange 110 positioned inside the earth retaining wall 10 and an outer flange 110 spaced from the inner flange 110 and positioned outside the earth retaining wall 10 And a pair of web members 130 which are positioned between the inner and outer flanges 110 and 120 and whose end surfaces are joined to the inner and outer flanges 110 and 120, respectively, ); The width of the inner flange 110 is formed to be larger than the distance between the end surfaces of the pair of web members 130 bonded to the inner flange 110 so that the width end of the inner flange 110, And a latching portion H is provided between the side surfaces.

FIG. 2 is a cross-sectional view and a perspective view of the steel assembly 100.

In the description of the present invention, the inside of the earth retaining wall 10 indicates a direction facing the space partitioned by the retaining wall 10, and the outside of the retaining wall 10 indicates the opposite side.

The steel material generally used for forming the thumb pile 11 in the earth retaining wall 10 according to the CIP method is an H-shaped section having an open section as an H-shaped section, Has a closed filling space S defined by inner and outer flanges 110 and 120 and a pair of web members 130.

After the steel assembly 100 is installed in a hole in the ground for constructing the thumb pile 11, concrete is poured into the hollow space in the hole. Concrete placed in the filling space S is inserted into the steel assembly 100, it is possible to form the thumb pile 11 of excellent rigidity and to prevent a reduction in the strength due to lateral buckling of the bending member.

Since the H-shaped steel for preformed bending material is difficult to penetrate into a perforation hole of a usual size, H-shaped steel for compressing material is used for construction of a general thumb pile 11, and the earth retaining wall 10 has a horizontal earth pressure, It is considered that the H-shaped steel for compressing material has a structure which is not efficient on the side supporting the earth pressure because it is a structure receiving a force perpendicular to the surface of the wall body 10.

On the other hand, in the steel assembly 100, the width of the inner and outer flanges 110 and 120 is small so as to effectively support the warpage, and the dancing of the web member 130 is largely formed, It is made to have dance.

In the case where the earth retaining wall 10 according to the CIP method is constructed on the ground comprising a part of the rock, the thumb pile 11 extends to the depth of the rock, but the pile 12 is formed only up to the depth of the earth, A soil plate or a shotcrete wall is installed at a portion where the pile 12 is not formed.

The soil plate or the like is supported by covering both longitudinally opposite end portions of the two thumb piles 11 positioned adjacent to each other. The catching portion H of the steel assembly 100 is shown in FIG. 3 (a) It is possible to prevent the earth plate 13 from moving to the inside of the earth retaining wall 10 due to the earth pressure. Generally, the H-shaped steel I used for the construction of the thumb pile 11 can also be covered with the earth plate 13 and the like on the flange. However, the H-shaped steel I, which is mainly used for the construction of the thumb pile 11, Because of the wide width and the deeper location inside the concrete, it is necessary to remove a large amount of concrete in order to secure a space that the soil wall can cover as shown in FIG. 3 (b).

The width of the inner and outer flanges 110 and 120 of the steel assembly 100 may be reduced and the web member 130 may be danced so as to fit the end face of the perforation hole. The amount of concrete to be removed is small.

3 (a) and 3 (b), the portion where the concrete is removed for the installation of the earth plates, etc. is indicated by the reference symbol 'D'.

2 and 4A, the gap between the pair of web members 130 is gradually reduced toward the inner flange 110 from the outer flange 120 side Or may be formed by bending the end on the side of the inner flange 110 of each of the pair of the web members 130 in a stepped manner toward the inside of the filling space S. When the web member 130 is bent to form the latching portion H, the web member 130 has a bent portion, so that the cross-sectional performance of the web member 130 side of the steel assembly 100 is increased.

The engaging portion H is formed by using the inner flange 110 having a width larger than the distance between the pair of web members 130 formed in parallel as shown in Fig. 4 (b) .

At least on the lower side of the entire length of the steel assembly 100, a reinforcing bar 140 may be further disposed on the outer flange 120 of the filling space S.

When the earth retaining wall 10 is constructed on the ground having the lower part of the rock, the thumb pile 11 has a structure in which the lower end is supported, And the thumb pile 11 should support a larger load at the bottom of the tongue 10. The reinforcing bar 140 reinforces the rigidity of the lower portion of the thumb pile 11 with respect to the bending stress so that the earth retaining wall body 10 can efficiently support the earth pressure.

2, the outer flange 120 is composed of two half flange portions 121 joined to each other with reference to the center of the width, And may be formed by bending at the end.

In the case of manufacturing the steel assembly 100 using the two members forming one half of the web member 130 and the half of the outer flange 120, it is possible not only to reduce the number of welds between the members, S, the reinforcing bars 140 can be easily fixed.

The end portions to which the half flange portions 121 are joined may be bent to form grooves in the portions where the two bent portions face, thereby being utilized as a welding fill space at the time of welding. The bending portion protruding inward from the filling space S improves the sectional performance of the steel assembly 100 and is embedded in the concrete placed in the filling space S to serve as a stud.

2 and the like, there is shown a case where a portion of the web member 130 to be joined to the inner flange 110 is bent to have the same angle as that of the inner flange 110 and joined to the inner flange 110 The web member 130 may not be bent and its end surface may be joined to the inner flange 110 and may be further bent toward the center of the filling space S and buried in the concrete to serve as a stud.

The thickness of the inner and outer flanges 110, 120 may be greater than the thickness of the web member 130.

When the inner and outer flanges 110 and 120 are thickly formed, the rigidity against the tensile stress acting on the outer flange 120 is increased. Therefore, the reinforcing steel bars (not shown) disposed in the portion of the outer flange 120 in the filling space S 140 may be omitted or reduced.

A bracket or the like may be installed on the thumb pile 11 in order to improve the earth pressure holding force of the earth retaining wall body 10 or to support the beam in the case of applying the back pavement method. It is possible to prevent the inner flange 110 from being broken by the load of the wrist strap, the bracket, and the like.

The web member 130, which restrains the concrete in the filling space S and supports the shear stress, is made of a thin steel plate, thereby ensuring economical efficiency.

A plurality of through holes P may be formed in the web member 130. 5 shows a perspective view of a steel assembly 100 having a web member 130 with a through-hole P formed therein.

As described above, the thumb pile 11 is constructed by inserting a member made of steel into the perforation hole and then placing concrete in the remaining part of the perforation hole. When using general H-shaped steel, the web and flange of the H- Since the space in the hole is divided into smaller portions, it is difficult to install the tremy tube in the divided spaces. Therefore, the concrete is poured at the upper end in the perforation hole to be laid. When concrete is poured into it, the concrete may fall off to the bottom of the hole and separation of the material may occur, and the concrete may not be poured tightly by being blocked by the web of the H-shaped steel.

However, since the steel assembly 100 has a large filling space S formed therein and the filling space S is divided by members made of a steel material, It is possible to put it in a confidential manner. The through hole P allows the concrete laid in the filling space S to move to a space outside the filling space S so that the concrete outside the filling space S can be poured tightly from the bottom do.

In this way, placing the concrete with a uniformly well mixed concrete with sufficient putting pressure not only provides the integrity of the concrete and the surrounding ground, but also allows the concrete to exhibit the strength as planned. Therefore, The earth pressure holding force is improved.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It will be obvious that various modifications may be made within the scope of the idea. It is therefore intended that such modifications are within the scope of the invention as set forth in the claims.

10: retaining wall 11: thumb pile
100: Steel assembly 110: Inner flange
120: outer flange 121: half flange portion
130: web member 140: rebar
H: Retaining part P: Through hole
S: filling space

Claims (7)

1. A steel material assembly to be embedded in a concrete placed in a perforation hole in the ground for constructing a thumb pile constituting an earth retaining wall,
The steel assembly 100 includes an inner flange 110 located inside the earth retaining wall 10 and an outer flange 120 spaced apart from the inner flange 110 and positioned outside the earth retaining wall 10, And a pair of web members 130 which are positioned between the inner and outer flanges 110 and 120 and which are integrally joined to the inner flange 110 at one end thereof, );
The width of the inner flange 110 is formed to be larger than the distance between the end surfaces of the pair of web members 130 bonded to the inner flange 110 so that the width end of the inner flange 110, A latching portion H is provided between the side surfaces,
Wherein the thickness of the inner flange (110) is greater than the thickness of the web member (130).
The method according to claim 1,
Wherein a reinforcing bar (140) is disposed at least on a lower side of the entire length of the steel assembly (100) as a portion of the outer flange (120) of the filling space (S).
The method according to claim 1,
Wherein the engaging portion H is formed by reducing the distance between the pair of web members 130 toward the inner flange 110 from the outer flange 120 side.
The method according to claim 1,
Wherein the engaging portion H is formed by bending the inner flange 110 side end portion of each of the pair of web members 130 in a stepped manner toward the inside of the filling space S. In this case, Assembly.
The method according to claim 1,
The outer flange 120 is composed of two half flange portions 121 joined to each other with reference to the center of the width and the half flange portion 121 is formed by bending at the end of the web member 130 A steel assembly for the construction of a thumb pile.
delete The method according to claim 1,
Wherein a plurality of through holes (P) are formed in the web member (130).

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