KR20130076072A - Steel socket and apparatus connecting steel pile steel column using the same - Google Patents

Abstract

PURPOSE: A steel pipe socket, a steel pipe pile using the same, and a connection method of steel pipe column are provided to simply connect a steel pipe pile and a steel pipe column without casting base slab. CONSTITUTION: A steel pipe pile using the same and a connection method of steel pipe column comprise the following steps of: forming the flat top end surface of steel pipe pile by horizontally cutting the top end surface of a steel pipe pile (10) casted in a place; forming a plurality of socket grooves on the top end surface of outer peripheral portion of steel pipe pile; placing the socket supporting portion (110) of steel pipe pile on the top end surface of steel pipe pile by inserting a socket inserting portion (120) of steel pipe socket (100) into the socket groove of steep pipe pile; and fastening the steel pipe column and the steep pipe pile by using a plurality of fastening members (140) that is installed in the socket supporting unit.

Description

TECHNICAL FIELD [0001] The present invention relates to a steel pipe socket and a method of connecting a steel pipe pile to a steel pipe column using the steel pipe socket.

The present invention relates to a steel pipe socket and a method for connecting steel pipe pillar and steel pipe column using the same, and more particularly, to a steel pipe socket connecting steel pipe pillar and steel pipe column and a method of connecting steel pipe pillar and steel pipe column using the same.

It is very difficult to directly install the steel pipe columns on the installed steel pipe piles because horizontal errors can occur in the installation positions of the steel pipe piles or steel pipe columns due to the construction error, This is because it is very difficult to secure the vertical position of the steel pipe column mounted on the upper part.

In order to remove the eccentricity of the steel pipe pillar or the steel pipe column and secure the vertical position of the steel pipe column, conventionally, the concrete bottom plate has been mainly used when connecting the steel pipe pile to the steel pipe column.

In the conventional method of connecting the steel pipe pile to the steel pipe column using the conventional concrete bottom plate, first, the required number of steel pipe piles are mounted on the installation site and the upper surface of the damaged steel pipe pile is arranged. In this case, the work of attaching the reinforcing bars to the upper surface of the steel pipe pile may be added to increase the adhesion between the substantial surface of the steel pipe pile and the concrete bottom plate. Then, the reinforced concrete for the bottom plate of the concrete and the mold are installed, and concrete is laid to complete the coned bottom plate. At this time, considering the installation position of the steel pipe column, the bottom plate bolt before concrete installation is installed in advance. Then, the lower end surface of the steel pipe column is mounted on the cured concrete bottom plate, and then fixed to the floor using the base plate and the bottom plate bolt. At this time, the horizontal and vertical degrees of the steel pipe columns are secured through the grout layer installation between the base plate and the concrete bottom plate.

The conventional method of connecting a steel pipe pile to a steel pipe column using a conventional concrete bottom plate involves processes such as rebar machining and assembly, bottom plate bolt installation, form installation, concrete installation and curing, and grout installation according to the concrete foundation construction, And construction costs. Especially, in case of plant construction with strong fast track construction, since a considerable period of air is required to connect steel pipe pile and pipe rack steel pipe column, the delay in the plant facility commissioning .

It is an object of the present invention to solve the problems of the background art described above and to provide an economical steel pipe socket which can simplify the process of connecting the steel pipe pillar to the steel pipe column, Method.

Also, it is intended to provide a steel pipe socket capable of removing eccentricity of a steel pipe pillar or a steel pipe column and securing the verticalness of the steel pipe column, and a method of connecting the steel pipe pipe with the steel pipe.

The steel pipe socket according to one embodiment of the present invention includes a socket support portion covering a top surface of a steel pipe pile; A plurality of socket inserts extending downward from the socket support and inserted into the socket grooves of the steel pipe pile; And a plurality of fastening members installed on the socket support to fasten the steel pipe column and the steel pipe pile mounted on the socket support.

And a horizontal holding member inserted into a gap between the socket inserting portion and the bottom of the socket groove to adjust a horizontal position of the socket supporting portion.

The horizontal holding member may be wedge-shaped.

And a reinforcing member installed on a lower surface of the socket support to reinforce the strength of the socket support.

A column support portion provided on a lower end surface of the steel pipe column, and a plurality of reinforcing ribs contacting the column support portion and side surfaces of the steel pipe column at the same time.

The column supporting portion may be in contact with the upper surface of the socket supporting portion.

The fastening member may be a bolt and a nut disposed along the outer periphery of the socket support, and the fastening member may be inserted into the fastening hole of the column support.

The diameter of the socket support may be greater than the diameter of the steel tube pile.

According to another aspect of the present invention, there is provided a method of connecting a steel pipe pile using a steel pipe socket, the method comprising: forming a plurality of socket grooves on an upper surface of a steel pipe pile; A step of inserting a plurality of socket inserting portions to be extended, a step of mounting a steel pipe column on the socket supporting portion, and a step of fastening the steel pipe column and the steel pipe pile using a plurality of fastening members provided on the socket supporting portion have.

And inserting a horizontal holding member in a gap between the socket inserting portion and the bottom of the socket groove to adjust a horizontal position of the socket supporting portion.

And fixing the steel pipe socket to the steel pipe pile by welding the socket inserting portion and the socket groove.

And installing a socket connection portion on the steel pipe column to be connected to the steel pipe socket.

The step of installing the socket connection part may include a step of providing a column supporting part on the lower end surface of the column of the steel pipe, and a step of providing a plurality of reinforcing ribs that simultaneously contact the column supporting part and the side part of the column of the steel pipe.

The fastening member may be inserted into the fastening hole of the column supporting portion.

The method may further include forming a top surface of the horizontal steel pipe pile by horizontally cutting the upper end of the steel pipe pile before forming the plurality of socket grooves on the upper surface of the steel pipe pile.

A method of connecting a steel pipe socket and a steel pipe column using the same according to an embodiment of the present invention includes a socket supporting part covering an upper surface of a steel pipe pile, a socket inserting part extending downward from the socket supporting part, The steel pipe socket mounted on the socket support portion and the steel pipe socket including the fastening member which is fastened to the socket support portion by fastening the steel pipe pile can simplify the connecting operation between the steel pipe pillar and the steel pipe column without the concrete bottom plate being laid .

In addition, it is possible to shorten the construction period required for connecting the steel pipe pile to the steel pipe column at the site.

In addition, since the construction of the concrete bottom plate is unnecessary, the construction cost required for the construction can be reduced.

Further, by providing a horizontal holding member inserted in the gap between the socket inserting portion and the bottom of the socket groove to adjust the horizontal position of the socket supporting portion, the horizontal eccentricity of the steel pipe pillar or the steel pipe column is removed, Can be secured.

1 is a side view of a steel pipe pile and a steel pipe column connected using a steel pipe socket according to an embodiment of the present invention.
2 is a plan view of a steel pipe pile and a steel pipe column connected using a steel pipe socket according to an embodiment of the present invention.
3 is an enlarged view of a portion A of FIG. 1.
FIGS. 4 to 8 are views showing a method of connecting steel pipe piles and steel pipe columns using steel pipe sockets according to an embodiment of the present invention in order.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. The present invention may be embodied in many different forms and is not limited to the embodiments described herein.

In order to clearly illustrate the present invention, parts not related to the description are omitted, and the same or similar components are denoted by the same reference numerals throughout the specification.

A steel pipe socket according to an embodiment of the present invention will be described in detail with reference to FIGS. 1 to 3. FIG.

FIG. 1 is a side view of a steel pipe pile and a steel pipe column connected using a steel pipe socket according to an embodiment of the present invention. FIG. 2 is a side view showing a steel pipe socket and a steel pipe column Fig. 3 is an enlarged view of a portion A in Fig. 1. Fig.

1 to 3, a steel pipe socket 100 according to an embodiment of the present invention is used to connect steel pipe piles 10 having different diameters to steel pipe columns 20, A plurality of socket inserting portions 120 extending downward from the socket supporter 110; a plurality of socket inserting portions 120 extending downward from the socket supporter 110; (140).

The steel pipe socket 100 includes socket connecting portions 150 and 160 separated from the socket supporting portion 110 and installed in the steel pipe column 20. [ The socket connection portions 150 and 160 connect the socket supporting portion 110 of the steel pipe socket 100 and the steel pipe column 20 when the steel pipe socket 10 and the steel pipe column 20 are connected using the steel pipe socket 100 do.

The socket groove 10a of the steel pipe pile 10 is perpendicular to the horizontal top surface of the steel pipe pile 10 so that the center axis C1 of the steel pipe pile 10 is inclined at an installation position, And is formed long in one direction. That is, the socket groove 10a of the steel pipe pile 10 is elongated in a direction parallel to the center axis C2 of the steel pipe column 20 to be connected.

The socket supporting portion 110 is a circular plate and the diameter d3 of the socket supporting portion 110 may be larger than the diameter d1 of the steel pipe pile 10. [ The socket support 110 serves to uniformly distribute the load of the steel pipe column 20 to the steel pipe pile 10.

The socket inserting portion 120 may extend vertically downward from the socket supporter 110 and the length L1 of the socket inserting portion 120 may be greater than the length L2 of the socket recess 10a (see FIG. 5) . The socket inserting portion 120 is inserted into the socket groove 10a of the steel pipe pile 10. [

The fastening member 140 fastens the steel pipe column 20 and the socket supporting portion 110, which are mounted on the socket supporting portion 110. The fastening member 140 is a bolt and a nut having a tensile strength of 50 kg / mm 2 or more and disposed along the outer periphery of the socket support 110. The fastening member 140 is fastened to the fastening hole 150a The fastening member 140 is inserted into the fastening hole 150a of the column supporting portion 150 at the process of connecting the steel pipe pillar 10 and the steel pipe column 20, The socket support 110 connected to the steel pipe pile 10 and the column support 150 connected to the steel pipe column 20 are fastened.

The socket connecting portions 150 and 160 include a column supporting portion 150 provided at the lower end surface of the steel pipe column 20 and a plurality of reinforcing ribs 160 installed at the side portions of the steel pipe column 20 do.

The diameter d4 of the column supporting portion 150 is larger than the diameter d2 of the steel tube column 20 and smaller than the diameter d3 of the socket supporting portion 110. [ The column supporting portion 150 is in contact with the upper surface of the socket supporting portion 110 so that the load of the steel pipe column 20 contacts the socket supporting portion 110 during the process of connecting the steel pipe column 10 to the steel pipe column 20. [ It serves to deliver uniformly.

Since the reinforcing ribs 160 are simultaneously in contact with the column supporting portions 150 and the side portions of the steel pipe columns 20, the reinforcing ribs 160 reinforce the strength of the lower end portions of the steel pipe columns 20. [

A reinforcing member 130 for reinforcing the strength and rigidity of the socket support 110 may be installed on the lower surface of the socket support 110. The reinforcing member 130 may be formed in an annular shape along the outer periphery of the socket support 110.

A horizontal holding member 170 is inserted into the gap between the socket inserting portion 120 and the bottom of the socket groove 10a to adjust the horizontal position of the socket supporting portion 110. The horizontal holding member 170 may have an end inclined in a wedge shape so that the horizontal holding member 170 is inserted into the gap between the socket inserting portion 120 and the bottom of the socket groove 10a, The height of the upper surface of the portion 120 can be adjusted. Therefore, the socket supporting portion 110 connected to the upper surface of the socket inserting portion 120 can be horizontally adjusted, so that the verticality of the steel column 20 mounted on the socket supporting portion 110 can be secured.

Therefore, the steel pipe socket according to the embodiment of the present invention can simplify the connection work between the steel pipe pile 10 and the steel pipe column 20 without the concrete bottom plate being laid.

Hereinafter, a method of connecting a steel pipe pile and a steel pipe column using a steel pipe socket according to an embodiment of the present invention will be described in detail with reference to FIG. 4 to FIG.

FIGS. 4 to 8 are views showing a method of connecting steel pipe piles and steel pipe columns using steel pipe sockets according to an embodiment of the present invention in order.

As shown in FIG. 4, in the method of connecting the steel pipe pillar according to the embodiment of the present invention, the upper end of the steel pipe pile 10 placed on the site is horizontally cut to form a horizontal steel pipe pile 10, Thereby forming a top surface 11 of the substrate 10. The center axis C1 of the steel pipe pile 10 may be installed at an installation position in which the center axis C1 of the steel pipe pile 10 is inclined by a construction error. 10 are not perpendicular to the top surface 11 of the base 10, as shown in FIG.

A plurality of socket grooves 10a are formed on the upper surface of the outer frame of the steel pipe pile 10. [ Although four socket grooves 10a are formed in the present embodiment, the present invention is not limited thereto. The socket groove 10a of the steel pipe pile 10 is elongated in a direction perpendicular to the horizontal top surface of the steel pipe pile 10. [ That is, the socket groove 10a of the steel pipe pile 10 is elongated in a direction parallel to the center axis C2 of the steel pipe column 20 to be connected.

5, the socket supporting portion 110 includes a plurality of socket inserting portions 120 extending downward from the socket supporting portion 110, a plurality of fastening members 140 installed on the socket supporting portion 110, The steel pipe socket 100 is prepared. A reinforcing member 130 for reinforcing the strength and rigidity of the socket supporting portion 110 may be provided on the lower surface of the socket supporting portion 110 of the steel pipe socket 100.

6, the socket inserting portion 120 of the steel pipe socket 100 is inserted into the socket groove 10a of the steel pipe pile 10, and the socket supporting portion 110 of the steel pipe socket 100 is inserted And is mounted on the upper surface of the steel pipe pile (10). At this time, the socket inserting portion 120 is inserted to the bottom of the socket groove 10a of the steel pipe pile 10 as much as possible. In this case, when the steel pipe pile 10 is obliquely laid, some of the plurality of socket inserting portions 120 may not be inserted into the bottom of the socket groove 10a. In this case, The support portion 110 may not be disposed horizontally.

In order to prevent this, the horizontal holding member 170 is inserted into the gap between the socket inserting portion 120 and the bottom of the socket groove 10a. The height of the upper surface of the socket inserting portion 120 can be adjusted by further inserting or inserting the horizontal holding member 170 into the gap between the socket inserting portion 120 and the bottom of the socket groove 10a. Therefore, the socket supporting portion 110 connected to the upper surface of the socket inserting portion 120 can be horizontally adjusted, so that the verticality of the steel column 20 mounted on the socket supporting portion 110 can be secured.

After confirming the horizontal position of the socket support 110, the socket inserting portion 120 is welded to the steel pipe pile 10 and fixed. Therefore, the welding portion 1 is formed on the contact surface between the socket inserting portion 120 and the socket groove 10a. After the socket inserting portion 120 is welded and fixed to the socket groove 10a, the horizontal holding member 170 can be removed.

7, the socket connecting portions 150 and 160 for connecting the socket supporting portion 110 of the steel pipe socket 100 and the steel pipe column 20 are installed on the steel pipe column 20. Next, as shown in FIG. The socket connecting portions 150 and 160 include a column supporting portion 150 provided at the lower end surface of the steel pipe column 20 and a plurality of reinforcing ribs 160 installed at the side portions of the steel pipe column 20 do.

Next, as shown in FIG. 8, the steel pipe column 20 provided with the socket connecting portions 150 and 160 is mounted on the socket supporting portion 110 fixed to the steel pipe pile 10. At this time, the bottom surface of the column support 150 contacts the upper surface of the socket support 110, and a plurality of fastening members 140 provided on the socket support 110 are inserted into the fastening holes 150a of the column support 150 The socket support 110 connected to the steel pipe pile 10 and the column support 150 connected to the steel pipe column 20 are fastened.

At this time, it is also possible to solve the horizontal deviation of the steel pipe pile 10 by making the diameter of the fastening hole 150a of the column supporting portion 150 larger than the diameter of the fastening member 140.

As described above, the method of connecting the steel pipe pillar to the steel pipe pillar using the steel pipe socket according to the embodiment of the present invention can simplify the connection work between the steel pipe pile 10 and the steel pipe column 20 without the concrete bottom plate being laid .

In addition, the construction period required for connection between the steel pipe pile 10 and the steel pipe column 20 at the site can be shortened, and the construction of the concrete bottom plate becomes unnecessary, thereby reducing the construction cost required.

The horizontal holding member 170 inserted in the gap between the socket inserting portion 120 and the bottom of the socket groove 10a to adjust the horizontal position of the socket supporting portion 110 is provided, The horizontal eccentricity of the steel pipe pile 10 or the steel pipe column 20 is removed so as to secure the verticality of the steel pipe column 20 mounted on the steel pipe pile 10 even when the steel pipe pile 10 inclines .

While the invention has been shown and described with reference to certain preferred embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made therein without departing from the spirit and scope of the following claims. Those who are engaged in the technology field will understand easily.

10: Steel pipe pile 20: Steel pipe pillar
110: socket support part 120: socket inserting part
130: reinforcing member 140: fastening member
150: column support portion 160: reinforcing rib
170: horizontal holding member

Claims (15)

A socket support portion covering a top surface of the steel pipe pile;
A plurality of socket inserts extending downward from the socket support and inserted into a socket groove of the steel pipe pile;
A plurality of fastening members installed on the socket support part by fastening the steel pipe pillar mounted on the socket support part and the steel pipe pile;
Steel pipe socket comprising a. In claim 1,
And a horizontal holding member inserted into a gap between the socket insertion portion and the bottom of the socket groove to adjust the level of the socket support. 3. The method of claim 2,
Wherein the horizontal holding member is wedge-shaped. In claim 1,
And a reinforcing member installed on a lower surface of the socket supporting portion to reinforce the strength of the socket supporting portion. In claim 1,
A column support portion provided on a lower end surface of the steel pipe column,
And a plurality of reinforcing ribs that simultaneously come into contact with the column supporting portions and the side portions of the steel pipe columns,
And a socket connection portion including the socket connection portion. The method of claim 5,
And the column supporting portion is in contact with the upper surface of the socket supporting portion. The method of claim 5,
Wherein the fastening member is a bolt and a nut disposed along an outer frame of the socket support,
Wherein the fastening member is inserted into the fastening hole of the column supporting portion. In claim 1,
Wherein the diameter of the socket support portion is larger than the diameter of the steel pipe pile. Forming a plurality of socket grooves on the top surface of the steel pipe pile,
Inserting a plurality of socket inserts extending downward from the socket support of the steel pipe socket into the socket groove;
Mounting a steel tube column on the socket support,
A step of fastening the steel pipe column and the steel pipe pile using a plurality of fastening members provided on the socket supporting portion
Connection method of the steel pipe pile and the steel pipe pillar using a steel pipe socket comprising a. The method of claim 9,
And inserting a horizontal holding member into a gap between the socket insertion part and the bottom of the socket groove to adjust the level of the socket support part. The method of claim 9,
And fixing the steel pipe socket to the steel pipe pile by welding the socket inserting portion and the socket groove to connect the steel pipe pillar to the steel pipe pillar using the steel pipe socket. The method of claim 9,
And installing a socket connection portion to the steel pipe column to be connected to the steel pipe socket, and connecting the steel pipe pillar to the steel pipe column using the steel pipe socket. The method of claim 12,
The step of installing the socket connection
Installing a column support on the lower end surface of the steel pipe column,
And a step of installing a plurality of reinforcing ribs that simultaneously contact the column supporting portions and the side portions of the steel pipe column, using the steel pipe socket. In claim 13,
Wherein the fastening member is a steel pipe socket inserted into a fastening hole of the column supporting portion. The method of claim 9,
Before forming the plurality of socket grooves on the upper surface of the steel pipe pile,
And cutting the upper end of the steel pipe pile horizontally to form a top surface of a horizontal steel pipe pile.

Images