KR20170132559A - Reformed concrete filled tube column structure - Google Patents

Abstract

The present invention relates to a filled column in which a pipe for placing concrete is embedded. According to the present invention, a plate column forming an outer surface of a column is used as a permanent mold, and an octagonal reinforcing member is formed in a predetermined length of the column. So, the filled column in which the pipe for placing the concrete is embedded can minimize the thickness of a plate and can obtain rigidity and strength. The pile filled column in which the pipe for placing the concrete is embedded has the pipe for placing the concrete to place the concrete into a steel column at the same time. The pipe for placing the concrete is embedded after the concrete is placed. According to a desirable embodiment of the present invention, the filled column in which the pipe for placing the concrete is embedded comprises: the steel column of a predetermined length, which has a square cross section having an inner space in which the concrete is filled; a core member formed of an H-beam arranged in the longitudinal direction by being located at the center of a cross section in the column; a gap fixing member connecting a corresponding side of the core member in the horizontal direction on the inner surface of each side of the steel column at fixed intervals in the longitudinal direction of the steel column; an inner reinforcing member formed in the shape of an octagonal frame with an empty center and formed at each fixed height of the steel column, wherein the lower surface of the inner reinforcing member is mounted and connected to the upper part of the gap fixing member; the pipe for placing the concrete, which has multiple concrete placing holes bored in the shape of the pipe with the empty inside in a predetermined length, wherein the pipe for placing the concrete is embedded in the steel column in the longitudinal direction; a vertical reinforcing bar vertically arranged in the steel column; and a hoop enclosing the outer side of the vertical reinforcing bar in fixed intervals in the longitudinal direction of the steel column.

Description

REFORMED CONCRETE FILLED TUBE COLUMN STRUCTURE < RTI ID = 0.0 >

More particularly, the present invention relates to a pillar for filling concrete pouring, more particularly, to use a plate pillar constituting the outer surface of a pillar as a permanent formwork, to form an octagonal reinforcing member for each predetermined length of the pillar, And a concrete pouring pipe for pouring the concrete so that the concrete can be simultaneously poured into the steel column while minimizing the strength and rigidity of the steel pillar.

Generally, concrete filling columns are designed to insert concrete pipes in the upper part of filling pillars, such as pump cars, but the concrete will fall freely from the inside of the pillars when the concrete is laid. There is a problem that the quality is deteriorated. Since the reinforcing plate is made of a steel plate and the strength and rigidity are not reinforced, there is a problem that deformation or widening of the filling column occurs due to impact when the concrete is poured.

As a background of the present invention, there is a patent registration No. 0716570 entitled " Method of Placing Filled Steel Tubular Pillar and Foundation Concrete Using a Filling Pipe and Column to be Used at the Time "(Patent Document 1). In the above-mentioned background art, in a method of installing a basement frame and a foundation concrete of a building, a filling pipe (14) is installed in the inside of the column (10) so as to penetrate to the lower end and is integrally installed by a plurality of stiffeners And the concrete is supplied through the filling pipe 14 to the foundation concrete 11 and the column 10 at a time And a method of installing a filled steel pipe column and foundation concrete using a filling pipe, which is characterized by including a method of pouring the same together.

However, the above-mentioned background technique is to fill the concrete from the bottom of the column, so that the entire column can not be filled at the same time.

Patent Registration No. 0716570 "Method of casting filled steel pipe columns and foundation concrete using a filling pipe and columns used at this time"

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and it is an object of the present invention to provide a pouring apparatus capable of preventing the concrete from being separated from the concrete when filling the concrete into the filling column, It is possible to prevent the decrease of the adhesion force due to the concrete contaminated with the reinforcing bars inside the filling column and to pile the columns integrally so that the air can be shortened and the construction quality can be improved, And it is an object of the present invention to provide a pillar for buried concrete for a concrete pavement which can prevent a safety problem from occurring due to no need for dismantling work.

The present invention relates to a steel column having a predetermined length and having a rectangular cross section in which an internal space portion for filling concrete is formed; A core made of H-shaped steel arranged in the longitudinal direction and located at the center of the cross section in the inside of the column; A gap fixing member formed so as to connect the corresponding surfaces of the core in the horizontal direction on the inner surface of each side of the steel column at regular intervals in the longitudinal direction of the steel column; An inner reinforcement member formed in an octagonal frame shape having an empty central portion and formed at every predetermined height of the steel column, the lower surface of which is seated on the upper portion of the gap fixing member; A concrete casting pipe in which a plurality of concrete casting holes are formed in a pipe shape having a predetermined length and the inside of which is hollow and which is embedded in the longitudinal direction of the steel casting in a longitudinal direction; A vertical reinforcement disposed in the vertical direction of the steel column; And a reinforcing bar which is configured to surround the outside of the vertical reinforcing bars at regular intervals in the longitudinal direction of the steel pillars.

The inner reinforcing member is composed of a plate-shaped horizontal surface having a predetermined length and a vertical surface extending vertically at one end of the horizontal surface. The inner reinforcing member is formed by connecting members having a cross-section to form an octagonal shape. We intend to provide a pipe-buried fill column.

The vertical reinforcing bars are fixed to the vertical sides of the outer side of the concrete pouring pipe adjacent to the inner edge of the steel pillar by means of a fixing member.

In addition, the concrete pouring pipe is characterized in that the pouring hole is pierced in a zigzag shape.

Also, the concrete pouring pipe is a spiral duct that is formed by winding a band steel plate into a spiral shape to form a pipe-like shape.

Also, the inner reinforcing member is formed with a seat portion where one side of the inner side is bent in an arcuate shape, and the outer peripheral surface of one side of the concrete casting pipe is seated on the seat portion.

The steel pillar is formed so as to have a rectangular cross section by a combination of four unit members having a cross section, and each of the adjacent unit members is welded to the inside of the connecting portion to join the unit member. The present invention is directed to a method of manufacturing a semiconductor device.

Also, it is desirable to provide a buried pipe for buried concrete for a concrete installation, wherein the joint member is a member having a cross section.

The pipe-embedded type filler column for concrete pouring according to the present invention can prevent the concrete from being separated from the concrete when filling the concrete into the filler column by constructing the pole column in which the concrete pouring hole is formed to be embedded in the filled steel pipe in advance, It is possible to prevent the adhesion force due to the concrete contaminated with the reinforcing bars inside from being reduced and the columns to be integrally laid so that the air can be shortened as well as the construction quality can be improved and the installation and dismantling There is no need for work and there is a very useful effect that can prevent the occurrence of a safety problem.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate exemplary embodiments of the invention and, together with the description, serve to explain the principles of the invention, Shall not be construed as limiting.
BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view of a pipe-buried fill column for concrete pouring according to the present invention.
FIG. 2 is a partially exploded perspective view of FIG. 1; FIG.
3 is a perspective view of an inner reinforcing member and a concrete pouring pipe according to the present invention.
Fig. 4 is a plan sectional view of Fig. 1 above.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described in detail below with reference to the embodiments shown in the accompanying drawings, but the present invention is not limited thereto.

Hereinafter, the technical structure of the present invention will be described in detail with reference to the preferred embodiments.

FIG. 1 is a perspective view of a pipe-buried fill column for concrete pouring according to the present invention, FIG. 2 is a partially exploded perspective view of FIG. 1, and FIG. 4 is a plan sectional view of FIG. 1.

The pipe-embedded type filling column 1 for concrete pouring according to the present invention comprises a core 20 made of H-shaped steel inside a steel column 10, a gap 20 formed at certain intervals in the longitudinal direction in the steel column 10, A reinforcing member 40 having an octagonal shape and a concrete pouring pipe 50 embedded in the steel column 10 for pouring concrete and a vertical reinforcing bar 60 and a reinforcing bar 70).

The steel column 10 has a quadrangular cross-section so that the space 11 is formed therein so that the concrete is filled in the space 11 so that the steel column 10 serves as a permanent formwork .

The steel columns 10 may be integrally formed in a rectangular pipe shape, but they may be formed by bending a steel plate or the like because they are difficult to manufacture.

Further, as shown in the figure, the steel column 10 is formed to have a rectangular cross-section by combining four unit members 10a having a cross-section, In the case where the steel column 10 is composed of the four unit members 10a, each adjacent unit member 10a welds the engaging member 13 to the inner side of the connecting portion to engage the unit member 10a, It is possible to increase the rigidity of the steel column 10 and to prevent the deformation such as the warpage even if the length of the steel column 10 is long.

The joining member 13 may be made of a member having various cross sections such as a plate material and a rectangular steel pipe. Particularly, the joining member 13 may be made of a member such as a channel having a cross section so that the rigidity of the steel column 10 The gap between the inner side surface of the steel column 10 and the members constituting the inside of the steel column 10 may be kept constant. In addition, in the steel column 10, And to serve as a shear joint with the concrete being laid.

The core member 20 is located in the center of the cross section of the column 10 and is arranged in the longitudinal direction so that the axial moment and moment acting upon the use of the concrete filled column, Thereby preventing the load from being damaged.

The core member 20 may be formed of H-shaped steel and may be formed to protrude by a predetermined length from the upper end and the lower end of the steel column 10, respectively.

The core member 20 is fixedly joined to the inner surface of the steel column 10 by the gap fixing member 30. [

The gap fixing member 30 is formed at regular intervals in the work direction of the steel column 10 and is formed so as to connect the corresponding surfaces of the core 20 in the horizontal direction on the inner surface of each side of the steel column 10 Welding, or the like.

The gap fixing member 30 may be a member having various cross-sections, and in particular, an angle having a bend-shaped cross-section can be used for securing the engagement surface and increasing rigidity.

The gap fixing member 30 has one end joined to the inner surface of the steel column 10 and the other end connected to the core member 20 so that the steel column 10 can be joined to the steel column 10 10) so as to more effectively resist the side pressure of the concrete placed inside.

In addition, in the present invention, an octagonal internal reinforcing member 40 is provided inside the steel column 10 to provide a joining surface with another member, and the steel reinforcing member 40 has a role of reinforcing the inside of the steel column 10 . In particular, it is formed into an octagonal rim shape to reinforce both sides and corners of the steel column 10.

As shown in the figure, the inner reinforcing member 40 has an octagonal frame shape with an empty central portion. The inner reinforcing member 40 is formed so that the core 20 penetrates the central portion at every predetermined height of the steel column 10. And the lower surface is seated on the upper portion of the gap fixing member 30 so as to be coupled, thereby enhancing rigidity.

In addition, the inner reinforcing member 40 can be formed to have a predetermined length, and the inner reinforcing member 40 can be formed of a plate-shaped horizontal surface 41 and a horizontal surface And a vertical surface 42 extending in a vertical direction at one end of the first and second support members 41 and 41. The bending stiffness and the like can be improved by providing a member having a cross section, .

That is, the horizontal surface 41 provides a mating surface when engaged with the gap fixing member 30, and the vertical surface 42 can be provided as a mating surface for coupling with the vertical reinforcing bars 60, have.

The internal reinforcement member 40 may be formed to have the same number or less as the interval fixing member 30. [

In the present invention, a separate concrete casting pipe 50 is embedded in the steel column 10 so that the concrete can be prevented from being separated into the steel column 10 even if the length of the steel column 10 becomes long. But it is also possible to put it all together.

The concrete pouring pipe 50 is formed by pouring a plurality of concrete pouring holes 51 into a hollow pipe shape having a predetermined length inside and pouring concrete into the upper part of the concrete pouring pipe 50, So that the concrete can be simultaneously discharged by the concrete pouring hole 51 to fill the interior of the steel column 10.

The concrete pouring pipe 50 may be formed to have the same length as that of the steel column 10 but may be formed so as to protrude further from the upper end and the lower end of the steel column 10 to form a vertical joint between the concrete pour- It is possible to make the joint easier at the time.

3 is a perspective view of an inner reinforcing member and a concrete pouring pipe according to the present invention.

When the length of the steel column 10 becomes long, the spiral duct, which is formed by winding the strip steel plate into a spiral shape, is used as the concrete pouring pipe 50, So that it is possible to increase the rigidity even when the length is long and make it possible to manufacture effectively. As shown in FIG. 3, the concrete pouring holes 51 are formed at different heights. The concrete pouring holes 51 are formed in the steel pillar 10 so that the concrete pouring pipes 50 Can be made to pierce through the striking hole 51 in a staggered shape over the entire length.

The concrete pouring pipe 50 is embedded in the steel column 10 in a vertical direction and is preferably positioned between the core 20 and the inner reinforcing member 40 so as to facilitate filling of the concrete. And is embedded in the steel column 10 to increase the rigidity, so that the concrete pouring pipe 50 itself acts as a shear connection member.

3, the inner reinforcing member 40 is formed with a seating portion 45 whose one side is bent in an arcuate shape, so that the outer peripheral surface of one side of the concrete casting pipe 50 is fitted to the seating portion 45 And can be coupled using welding, coupling bands, or the like.

The vertical reinforcing bars 60 are arranged in the vertical direction of the steel columns 10 and the reinforcing bars 70 are configured to surround the outside of the vertical reinforcing bars 60 at regular intervals in the longitudinal direction of the steel columns 10.

The vertical reinforcement 60 is fixed to the vertical surface 42 of the outer side of the concrete pouring pipe 50 adjacent to the inner edge of the steel column 10 by a separate fixing member 61, The positional integrity can be ensured and the fixing can be facilitated.

The above-described pipe-buried fill column for concrete pouring according to the present invention can prevent the concrete from being separated from the concrete at the time of charging the concrete into the fill column by constructing the pole column in which the concrete pouring hole is formed, It is possible to prevent the decrease of the adhesion force due to the concrete contaminated with the reinforcing bar inside the filling column and the pillar can be integrally laid so that the air can be shortened and the construction quality can be improved, There is no need for installation or disassembly operation, and there is a very useful effect of preventing a safety problem from occurring.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art in light of the above teachings. will be. The invention is not limited by these variations and modifications, but is limited only by the claims appended hereto.

1: Pipes for concrete pouring
10: Steel column
11: Space portion
20: Core material
30:
40: internal reinforcing member
50: Pipes for concrete casting
51: Concrete pouring place
60: vertical reinforcement
70: Reinforcing bars

Claims (8)

A steel column 10 having a predetermined length and having a rectangular cross section in which an internal space 11 for filling concrete is formed;
A core (20) made of H-shaped steel arranged in the longitudinal direction at the center of the cross section in the inside of the column (10);
A gap fixing member (30) formed so as to connect the corresponding surfaces of the core (20) in the horizontal direction on the inner surface of each side of the steel column (10) at regular intervals in the longitudinal direction of the steel column (10);
An inner reinforcement member 40 having an octagonal frame shape with an empty central portion formed at every predetermined height of the steel column 10 and having a lower surface seated on the upper portion of the gap fixing member 30;
A concrete pouring pipe 50 in which a plurality of concrete pouring holes 51 are formed in a pipe shape having a predetermined length and which is hollowed and embedded in the longitudinal direction of the steel pillar 10;
A vertical reinforcing steel (60) arranged in the vertical direction of the steel column (10);
And a reinforcing bar (70) configured to surround the outside of the vertical reinforcing bars (60) at regular intervals in the longitudinal direction of the steel pillars (10). The method according to claim 1,
The inner reinforcing member 40 is formed of a plate-shaped horizontal surface 41 having a predetermined length and a vertical surface 42 extending vertically at one end of the horizontal surface 41 so as to form an octagonal member having a cross- Wherein the reinforcing member is formed by combining the reinforcing member and the reinforcing member. The method of claim 2,
Characterized in that the vertical reinforcing bars (60) are fixed by a fixing member (61) on the vertical side (42) of the outer side of the concrete piling pipe (50) adjacent to the inner edge of the steel column (10) Pillar. The method according to claim 1,
The concrete pouring pipe (50) is characterized in that the pouring hole (51) is perforated in a zigzag shape. The method according to claim 1,
The concrete pouring pipe (50) is a spiral duct that is formed by winding a strip steel plate in a spiral shape to form a pipe shape. The method according to claim 1,
The inner reinforcement member 40 is formed with a seating portion 45 having one side of the inner side bent in an arcuate shape,
Wherein the outer circumferential surface of one side of the concrete pouring pipe (50) is seated on the seating part (45). The method according to claim 1,
The steel column 10 is formed so as to have a rectangular cross section by the coupling of four unit members 10a having a cross section and each adjacent unit member 10a is welded to the inner side of the connecting portion, (10a) to be connected to each other. The method of claim 7,
Wherein the joint member (13) is a member having a cross section.

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