KR102560550B1 - Steel Assembly Pile - Google Patents

Abstract

The present invention is a cross-section in which the side is open by connecting the branch material for flexural tension located on the inside of the retaining wall and the channel-type reinforcing material configured on the outside of the retaining wall and the support material for flexural tension and the channel-type reinforcing material as a connecting material to resist shear By forming, it relates to a steel assembly pile for thumb pile construction to increase structural load by integrating the inside and outside concrete with the open side during concrete pouring.
A preferred embodiment of the present invention is a steel assembly pile embedded in concrete poured into a drilled hole in the ground to construct a thumb pile constituting a retaining wall, For bending and tension located inside the retaining wall in a plate shape of a certain size branch material; It consists of a vertical plate-shaped outer plate and a side plate extending from both ends in the width direction of the outer plate, forming an n-type cross section, spaced apart at a certain distance in the rear direction of the support member for bending and tensioning, and located on the outside of the retaining wall. a reinforcing material; It is composed of wire rods and is configured to be connected to the side plates of the channel-type stiffener and the support member for bending and tension at each end in the width direction at a certain distance inward in the width direction, so that the space composed of the channel-type stiffener and the support member for bending and tension is open It is made including; a connecting material formed to be.

Description

Steel assembly pile for thumb pile construction {Steel Assembly Pile}

The present invention relates to a steel assembly pile for thumb pile construction, and more particularly, to a support material for flexural tension located on the inside of a retaining wall, a channel-type reinforcement configured on the outside of the retaining wall, and a support for flexural tension as a connecting material to resist shear By connecting the material and the channel-type reinforcing member to form a cross section with an open side, during concrete pouring, the inside and outside concrete are integrated with the open side to increase the structural load. Regarding the steel assembly pile for pile construction will be.

When the ground is excavated to construct an underground structure, a retaining wall is constructed to stabilize the excavated surface. There are various methods of constructing these retaining walls depending on the ground conditions and the size of the earth pressure to be supported. Among them, the CIP method is easy to construct and has good rigidity, and can be applied to most ground except for gravel and bedrock ground. It has been applied in many fields.

When the lower part of the ground to which the retaining wall (1) is to be constructed is made of rock or the retaining wall needs to support a very large earth pressure, as shown in FIG. 1, in general, when constructing the retaining wall (1) such as CIP Drilling holes 11 and 12 at a certain depth in the ground, installing H piles 15 as thumb piles in the drilling holes 11 at regular intervals, and between the H-beams 15 and the H-beams 15 After inserting a reinforcing bar net into the perforation hole 12 of the, concrete is poured to form a pile in place.

However, it cannot be said that the H pile effectively supports the earth pressure as a bending member because the H pile has a symmetrical cross-sectional shape, whereas the earth pressure in the horizontal direction acts on the retaining wall. In addition, during the construction of H piles, it is difficult to install tremie pipes into the drilled holes because the space within the drilled holes is partitioned by the flange and web of the H piles in the process of pouring concrete after installing the H piles in the drilled holes. Therefore, since the concrete must be poured and placed from the top of the drilling hole, material separation may occur and the concrete may not be tightly filled in the drilling hole.

As a background technology of the present invention, there is Patent Publication No. 2019-0123639 "Steel assembly pile for retaining wall" (Patent Document 1). In the background art, 'an inner member 10 composed of a support material 11 for bending and tensioning in the shape of a plate of a certain length and an inner web 12 bent and extended at right angles on both sides of the support material 11 for bending and tensioning in the width direction and ; It consists of an outer flange 22 having a plate shape of a certain length and an outer web 22 bent and extended at right angles on both sides of the outer flange 21 in the width direction, and is attached to the end of the inner web 12 of the inner member 10. an outer member 20 to which an end of the outer web 22 is joined; Reinforcing bars 30 formed in the longitudinal direction on the inner surface of the inner member 10 and the outer member 20 for flexural tension support 11 and the outer flange 21, respectively; Steel assembly pile' is suggested.

However, the above background art has a problem in that it is difficult to secure structural strength due to a closed cross-section and it is difficult to integrate the inside and outside concrete, difficult to assemble or transport, and low economic feasibility.

Patent Publication No. 2019-0123639 "Steel Assembly Pile for Retaining Wall"

The present invention is to solve the above problems, by forming an open cross section with a member located on the inside of the retaining wall, a member constituted on the outside of the retaining wall, and a side member connecting them to each other, The purpose is to provide a steel assembly pile for thumb pile construction that allows the inside and outside concrete to be integrated to the side to increase the structural load.

The present invention is a steel assembly pile embedded in concrete poured into a drilled hole in the ground to construct a thumb pile constituting a retaining wall, and a supporting member for flexural tension located inside the retaining wall in a plate shape of a certain size; It consists of a vertical plate-shaped outer plate and a side plate extending from both ends in the width direction of the outer plate, forming an n-type cross section, spaced apart at a certain distance in the rear direction of the support member for bending and tensioning, and located on the outside of the retaining wall. a reinforcing material; It is composed of wire rods and is configured to be connected to the side plates of the channel-type stiffener and the support member for bending and tension at each end in the width direction on both sides in the width direction, spaced apart from each other at a certain distance inward, so that the space composed of the channel-type stiffener and the support member for bending and tension is open It is intended to provide a steel assembly pile for thumb pile construction, characterized in that the thickness of the support member for flexural tension is formed thicker than the thickness of the channel-type reinforcement.

In addition, it is intended to provide a steel assembly pile for thumb pile construction, characterized in that a pair of connecting members configured on both sides of the channel-type reinforcement and the support member for flexural tension are configured in parallel.

In addition, the pair of connecting members each constituted on both sides of the channel-type stiffener and the support member for flexural tension are composed of a diagonal line so that the width decreases toward the end joined to the support member for flexural tension from the end joined to the channel-type stiffener. To provide a steel assembly pile for thumb pile construction.

In addition, the channel-type reinforcement is to provide a steel assembly pile for thumb pile construction, characterized in that the central portion of the outer plate in the width direction is bent at an angle so as to protrude toward the rear and has one or more vertices.

In addition, to provide a steel assembly pile for thumb pile construction, characterized in that a plurality of strength reinforcing materials are configured in the longitudinal direction on the inner surface of the vertex.

delete

In addition, the connection material is to provide a steel assembly pile for thumb pile construction, characterized in that the lattice material in which a certain shape is repeated.

In addition, the connecting material is composed of a horizontal part and a side part extending upward from both ends of the horizontal part, and is continuously configured in the longitudinal direction of the channel-type reinforcement and the supporting member for bending and tension. To provide a steel assembly pile for pile construction, characterized in that do.

In addition, it is intended to provide a steel assembly pile for thumb pile construction, characterized in that a plurality of shear connectors are configured on the rear side of the support member for bending and tension.

In addition, to provide a steel assembly pile for thumb pile construction, characterized in that a plurality of strength reinforcing materials are configured in the longitudinal direction on the front or rear surface of the outer plate of the channel type reinforcing material.

In addition, to provide a steel assembly pile for thumb pile construction, characterized in that a plurality of strength reinforcing materials are configured in the longitudinal direction on the outer surface of the side plate of the channel type reinforcing material.

In addition, a channel-corresponding assembly member forming a u-shaped cross section consisting of an inner plate and a side plate extending upward from both ends in the width direction of the inner plate, the front surface of the inner plate is bonded to the rear surface of the support member for bending and tension, and the connecting material is a channel It is intended to provide a steel assembly pile for thumb pile construction, characterized in that it is configured to connect the side plate of the mold reinforcement and the side plate of the channel corresponding assembly, respectively.

The steel assembly pile for thumb pile construction of the present invention connects the support material for flexural tension located on the inside of the retaining wall and the channel-type reinforcing material formed on the outside of the retaining wall and the connecting material to resist shear. By forming a cross section with an open side surface, it is possible to increase the structural load capacity by integrating the inside and outside concrete with the open side surface during concrete pouring, while constructing a strength reinforcing material to prevent lateral buckling, thereby providing excellent bending capacity. It has the effect of exerting resistance to the moment and has the effect of resisting the moment, and there is a very useful effect that allows a reasonable cross-sectional configuration by varying the plate thickness of the inner member and the outer member according to the direction requiring bending resistance.

The following drawings attached to this specification illustrate a preferred embodiment of the present invention, and together with the detailed description of the present invention serve to further understand the technical idea of the present invention, the present invention is limited to those described in the accompanying drawings. It should not be construed as limiting.
1 is a cross-sectional view of an embodiment in which a thumb pile made of an H pile is constructed in the construction of a conventional retaining wall.
Figure 2 is a cross-sectional view of one embodiment of the steel assembly pile for pile construction of the present invention.
Figure 3 is a perspective view of one embodiment of the steel assembly pile for pile construction of the present invention.
Figure 4 is a side view of one embodiment of the steel assembly pile for pile construction of the present invention.
5 is a perspective view and a cross-sectional view of a retaining wall constructed using the steel assembly pile for pile construction of the present invention.
6 to 9 are cross-sectional views of various embodiments of the steel assembly pile for pile construction of the present invention.

Below, the present invention will be described in detail with reference to the embodiments presented in the accompanying drawings, but the presented embodiments are illustrative for a clear understanding of the present invention, and the present invention is not limited thereto.

Hereinafter, the technical configuration of the present invention according to a preferred embodiment will be described in detail.

2 is a cross-sectional view of an embodiment of a steel assembly pile for pile construction of the present invention, Figure 3 is a perspective view of an embodiment of a steel assembly pile for pile construction of the present invention, Figure 4 is a thumb pile construction of the present invention It is a side view of one embodiment of the steel assembly pile.

The steel assembly pile 100 of the present invention is a support member 110 for flexural tension in a plate shape of a certain size and a channel-type reinforcement (130 ), and a connecting member 140 configured to connect the channel-type reinforcing member 130 and the support member 110 for flexural tension.

5 is a perspective view and a cross-sectional view of a retaining wall constructed using the steel assembly pile for pile construction of the present invention.

As shown in Figure 5, the steel assembly pile 100 of the present invention generally drills drilling holes 11 and 12 at a certain depth in the ground in the same way as when constructing a retaining wall 1 such as CIP, and drilling at regular intervals. After inserting the steel assembly pile 100 with a thumb stake into the hole 11, concrete is poured inside, and the reinforcing mesh is in the drilling hole 12 between the steel assembly pile 100 and the steel assembly pile 100. After inserting, concrete is poured to form an in-situ pile.

After the steel assembly pile 100 is installed in the underground drilling hole 11 for thumb pile construction, concrete is poured into the empty space in the drilling hole 11. The steel assembly pile 100 of the present invention Since the side is open, it is easy to pour concrete into the cross section, but since the concrete is firmly constrained by the steel assembly pile 100, it is possible to form a thumb pile of excellent rigidity and to prevent deterioration in strength due to lateral buckling of the bending member. there is.

Since it is difficult to insert ready-made H-beams for bending materials into drilled holes of normal size, H-beams for compression materials are used for the construction of general thumb piles. ), it can be said that these H-beams for compression materials have an inefficient structure in terms of supporting the earth pressure.

On the other hand, in the steel assembly pile 100 of the present invention, the width of the channel-type reinforcement 130 and the support member 110 for bending and tension is small and the dance of the connecting member 140 is large so as to effectively support the bending, but the normal size It is manufactured to have a dance that can be inserted into the perforated hole of the

As shown in FIG. 5, the support member 110 for flexural tension is located on the inside of the retaining wall 1, and the channel-type reinforcing member 130 is constructed to be located on the outside of the retaining wall 1.

At this time, the channel-type reinforcing member 130 consists of a vertical plate-shaped outer plate 131 and side plates 132 extending from both ends of the outer plate 131 in the width direction, respectively, to form an n-type cross section.

At this time, the pair of side plates 132 may extend in a right angle direction from the outer plate 131, or each may extend in an oblique direction of the central portion in the width direction.

In particular, in the present invention, although the thickness of the channel-type reinforcement 130 and the support member 110 for bending and tension may be made the same, the thickness of the support member 110 for bending and tension is a certain thickness more than the thickness of the channel-type reinforcement 130 It can also be made thick.

In order to improve the soil pressure bearing capacity of the earth retaining wall (1), a webbing is installed on the thumb pile or a bracket, etc. can be installed to support the beam in the case of applying the reverse drilling method. By doing so, it is possible to prevent the support member 110 for flexural tension from breaking due to a load such as a wale or a bracket.

At this time, the channel-type reinforcing member 130 constitutes a side plate 132 extending from the outer plate 131, thereby serving to provide a joint surface of the connecting member 140 and at the same time serving as a side plate extending from the outer plate 131 ( 132), it is composed of a thinner plate than the support member 110 for flexural tension to improve economics and workability while increasing stiffness against tensile stress acting on the channel-type reinforcing member 130.

The channel-type reinforcement 130 and the support member 110 for flexural tension are connected by a connecting member 140, and the connecting member 140 is a wire rod such as a reinforcing bar having a relatively low resistance to shear force and high yield strength to make use of

The connector 140 may be used after cutting wire such as reinforcing bars to a certain length, and using a lattice material having a certain shape repeated, the channel-type reinforcement 130 and the support member 110 for flexural tension It can be connected to form an open cross section.

As shown in FIG. 2, the connection member 140 may be bonded to the outer surface of the side plate 132 in the channel-type reinforcement 130, and as shown in FIGS. 6 to 9, the side surface of the channel-type reinforcement 130 It may be bonded to the inner surface of the plate 132.

In addition, as shown in FIG. 4, the connecting member 140 is made of a horizontal portion 141 of a certain length by bending a wire rod and a side portion 142 extending upward from both ends of the horizontal portion 141, thereby forming a channel shape. A plurality of reinforcing member 130 and support member 110 for flexural tension may be continuously configured in the longitudinal direction. At this time, the side portion 142 may extend in a right angle direction from the horizontal portion 141, or may extend in an oblique direction as shown.

Such a horizontal portion 141 is in contact with the support member 110 for bending and tension to secure the welding joint surface as much as possible, and the ends of the pair of side portions 142 are each bonded to the side plate 132 of the channel-type reinforcing member 130 By doing so, it is possible to secure rigidity while increasing the bonding area.

By configuring the connector 140 in this way, the cross section with the open side can be formed so that the inside and outside concrete can be integrated with the open side when filling the concrete in the drilling hole 11, thereby increasing the structural load.

The connecting member 140 is configured to be bonded to the side plate 132 of the channel-type reinforcing member 130 and a position spaced apart from both ends in the width direction of the support member 110 for flexural tension by a predetermined distance inward in the width direction.

In this way, it is configured at a position spaced a certain distance from both ends of the support material 110 for bending and tensioning to the inside in the width direction, as shown in FIG. The ends of the earth plate 13 are crossed so that the earth plate 13 can be prevented from moving inwardly of the earth retaining wall 10 by earth pressure.

As shown in FIG. 5B, the steel assembly pile 100 of the present invention removes the concrete in the drilling hole 11 to the outside of the connecting member 140 and secures the installation space for the earth plate 13 in order to install the earth plate 13. However, since the H-beam, which is generally used for the construction of thumb piles, has a wide flange and the web is located deeper inside the concrete, a large amount of concrete must be removed to secure space for the earth plate to span. .

In addition, a plurality of well-known shear connectors 160 such as studs may be configured on the back side of the support member 110 for flexural tension.

6 to 9 are cross-sectional views of various embodiments of the steel assembly pile for thumb pile construction of the present invention.

As shown in FIG. 6, a pair of connectors 140 configured on both sides of the channel-type reinforcement 130 and the support member 110 for flexural tension may be configured in parallel, but FIGS. 2, 7 and 8 As in, the pair of connectors 140, each configured on both sides of the channel-type reinforcement 130 and the support member 110 for flexural tension, support member 110 for flexural tension at the end joined to the channel-type reinforcement 130 ) so that the width decreases toward the end joined to the end, so that the cross section is secured as much as possible inside the perforation hole 11, so that the sectional performance is improved while the earth plate 13 is mounted. .

In particular, as shown in FIG. 8, the channel-type reinforcing member 130 is formed by bending at a certain angle so that the central portion in the width direction of the outer plate 131 protrudes to the rear side, thereby maximizing the cross-sectional area within the drilled hole for thumb pile construction. It is possible to secure a torsion or leaning phenomenon at the time of insertion into a drilling hole, as well as to increase rigidity.

At this time, as shown in FIG. 8, the channel-type reinforcing member 130 may be formed so that the central portion in the width direction of the outer plate 131 protrudes in a triangular cross-sectional shape to have one vertex. It may be formed by protruding in a trapezoidal cross-section shape to have two vertices, or more vertices may be formed.

In this way, when the central portion of the channel-type reinforcing material 130 protrudes to form one or more vertices, a plurality of strength reinforcing materials 150 may be formed on the inner surface of the vertices in the longitudinal direction.

In particular, in the present invention, a plurality of strength reinforcing materials 150 are configured in the longitudinal direction on the front or rear surface of the outer plate 131 of the channel type reinforcing material 130 to reinforce the stiffness against the bending stress of the lower part of the thumb pile. The retaining wall (1) enables the earth pressure to be efficiently supported.

Such a strength reinforcing material 150 may be configured only on the outer plate 131, and as shown in FIG. 6, a plurality of strengths are provided in the longitudinal direction on the outer surface of the side plate 132 of the channel type reinforcing material 130. The reinforcing material 150 may be configured.

In particular, in the present invention, as shown in FIGS. 6 to 9, the channel corresponding assembly 120 forming a u-shaped cross section, the front surface of the inner plate 121 is bonded to the rear surface of the support member 110 for bending and tension, , The connection material 140 is configured to connect the side plate 132 of the channel-type reinforcement 130 and the side plate 122 of the channel-corresponding assembly 120, respectively, as shown in FIG. 9, the soil plate 13 It serves to increase the area where the connecting member 140 is bonded while preventing the connecting member 140 from being exposed even if the concrete in the drilling hole is removed for installation.

At this time, the channel-corresponding assembly 120 is composed of an inner plate 121 and a side plate 122 extending upward from both ends in the width direction of the inner plate 121, and the inner plate 121 is shown in FIG. As such, it may extend perpendicularly from the inner plate 121, or may extend obliquely as shown in FIGS. 7 and 8.

As described above, the steel assembly pile for thumb pile construction of the present invention is a support material for flexural tension located on the inside of the retaining wall and a channel-type reinforcing material configured on the outside of the retaining wall, and a support material for flexural tension and a channel type as a connecting material to resist shear By connecting the stiffeners to form a cross section with an open side, it is possible to increase the structural strength by integrating the inside and outside concrete with the open side during concrete pouring, and prevent lateral buckling by configuring the strength reinforcing material. It has the effect of exerting excellent bending resistance and resisting moment, and has a very useful effect that allows a reasonable cross-sectional configuration by varying the plate thickness of the inner member and the outer member according to the direction in which bending resistance is required.

So far, the present invention has been described in detail with reference to the presented embodiments, but those skilled in the art can make various modifications and variations without departing from the technical spirit of the present invention with reference to the presented embodiments. will be. The present invention is not limited by these variations and modifications, but is limited only by the claims appended below.

1 : retaining wall
100: steel assembly pile
110: Support material for bending and tension
120: channel response assembly
130: channel type reinforcement
140: connecting material

Claims (12)

In the steel assembly pile embedded in the concrete poured into the drilling hole in the ground to construct the thumb pile constituting the retaining wall (1),
A supporting member 110 for flexural tension located on the inside of the retaining wall 1 in a plate shape of a certain size;
It consists of a vertical plate-shaped outer plate 131 and a side plate 132 extending from both ends in the width direction of the outer plate 131, respectively, forming an n-type cross section, and in the rear direction of the support member 110 for flexural tension A channel-type reinforcing member 130 spaced apart from a certain distance and located outside the retaining wall 1;
It is made of wire and is configured to be bonded to the side plate 132 of the channel-type reinforcement 130 and the both ends in the width direction of the support member 110 for flexural tension at a distance apart from each other in the width direction. Channel-type reinforcement (130) and a connecting member 140 formed so that the space formed of the support member 110 for flexural tension is opened;
The thickness of the support member 110 for flexural tension is formed thicker than the thickness of the channel-type reinforcing member 130, characterized in that the steel assembly pile for thumb pile construction. The method of claim 1,
A pair of connecting members 140, each of which is configured on both sides of the channel-type reinforcement 130 and the support member 110 for flexural tension, is a steel assembly pile for thumb pile construction, characterized in that it is configured in parallel. The method of claim 1,
A pair of connectors 140, each configured on both sides of the channel-type reinforcement 130 and the support member 110 for flexural tension,
Steel assembly pile for thumb pile construction, characterized in that it is composed of an oblique line so that the width decreases from the end joined to the channel-type reinforcement 130 toward the end joined to the support member 110 for flexural tension. The method of claim 1,
The channel-type reinforcement 130 is a steel assembly pile for thumb pile construction, characterized in that the central portion in the width direction of the outer plate 131 is bent at an angle so as to protrude toward the rear and has one or more vertices. The method of claim 4,
Steel assembly pile for thumb pile construction, characterized in that a plurality of strength reinforcing materials 150 are configured in the longitudinal direction on the inner surface of the vertex. delete The method of claim 1,
The connection material 140 is a steel assembly pile for thumb pile construction, characterized in that the lattice material in which a certain shape is repeated. The method of claim 1,
The connecting member 140 is composed of a horizontal portion 141 and a side portion 142 extending upward from both ends of the horizontal portion 141,
Steel assembly pile for thumb pile construction, characterized in that it is continuously configured in the longitudinal direction of the channel-type reinforcement 130 and the support member 110 for flexural tension. The method of claim 1,
Steel assembly pile for thumb pile construction, characterized in that a plurality of shear connectors 160 are configured on the back of the support member 110 for bending tension. The method of claim 1,
Steel assembly pile for thumb pile construction, characterized in that a plurality of strength reinforcement 150 is configured in the longitudinal direction on the front or rear surface of the outer plate 131 of the channel-type reinforcement 130. The method of claim 1,
Steel assembly pile for thumb pile construction, characterized in that a plurality of strength reinforcement 150 is configured on the outer surface of the side plate 132 of the channel-type reinforcement 130 in the longitudinal direction. The method of claim 1,
A channel-corresponding assembly member 120 formed of a u-shaped cross section consisting of an inner plate 121 and a side plate 122 extending upward from both ends in the width direction of the inner plate 121, respectively,
The front side of the inner plate 121 is bonded to the back side of the support member 110 for flexural tension,
The connection material 140 is a steel assembly pile for thumb pile construction, characterized in that configured to connect the side plate 132 of the channel-type reinforcement 130 and the side plate 122 of the channel-corresponding assembly material 120, respectively.

Images