KR20200075648A - steel pipe pile connecting structure - Google Patents

Abstract

Disclosed is a steel pipe pile connecting structure which improves connection workability between steel pipe piles. According to an embodiment of the present invention, the steel pipe pile connecting structure connects an upper steel pipe pile and a lower steel pipe pile. The lower steel pipe pile has an expansion part on the top to insert the bottom of the upper steel pipe pile forming an insertion part into the expansion part to be supported. The insertion part and the expansion part are bound by at least one connection member while the insertion part is inserted into the expansion part. At least one pair of first holes performing communication with the inside of the expansion part and facing each other are arranged around the expansion part. At least one pair of second holes performing communication with the inside of the insertion part to match the first holes and facing each other are arranged around the insertion part. The connection member includes a pair of binding parts to bind the first holes and the second holes on both sides matching each other, and a connection part to connect the pair of binding parts to support the pair of binding parts.

Description

Steel pipe pile connecting structure

It relates to a steel pipe pile connection structure connecting between steel pipe piles.

Pile foundation is one of the basic types used to stably support the superstructure on the ground.

Steel pipe piles are widely used as foundation piles of structures that receive large lateral forces due to their excellent resistance to shear and bending moments.

Steel pipe piles are usually manufactured by steel pipe manufacturers to have a certain length. Therefore, when the depth of penetration exceeds the length of the steel pipe at the pile-based construction site, the steel pipe pile is used up and down.

On the other hand, when connecting a steel pipe pile, welding and a mechanical connection device are mainly used. In the case of welding, it takes a long working time, which is a factor that deteriorates the connection workability between the steel pipe piles.

In addition, in the case of mechanical connection devices, since the fixed form is mainly used regardless of the required connection strength when connecting between the steel pipe piles, there is a limit to allow the connection strength between the steel pipe piles to be adjusted in response to the required tensile strength. .

To improve the workability of the connection between the steel pipe piles and to provide a steel pipe pile connection structure that can adjust the connection strength between the steel pipe piles in response to the required tensile strength.

The steel pipe pile connection structure according to an embodiment is for connecting between an upper steel pipe pile and a lower steel pipe pile, and the lower steel pipe pile is expanded to an upper end portion so that the lower end portion of the upper steel pipe pile forming an insertion portion is inserted inward and supported. It is provided, and between the insertion portion and the expansion portion, the insertion portion is bound by at least one connecting member in a state inserted in the expansion portion, and at least one pair communicating with the inside of the expansion portion and facing each other around the expansion portion A first hole is provided, and at least one pair of second holes communicating with the inside of the insertion portion and facing each other are provided around the insertion portion to match the first hole. It includes a pair of binding portions for binding between the one hole and the second hole, and a connection portion for connecting and supporting the pair of the binding portions.

The first hole and the second hole each form a plurality of pairs, and the connecting material may be provided in a plurality.

A plurality of pairs of the first holes are provided along the periphery of the expansion tube to run in phase with each other along the axial direction, and a plurality of pairs of the second holes are provided along the periphery of the insertion section to run in phase with each other along the axial direction. Can be.

A plurality of the connecting material may be supported in the axial direction in the state where the connecting portion is intersected with each other inside the insertion portion.

The binding portion is fastened to the inside of the first hole and the second hole that are mutually matched outside the first hole, and the second hole may be provided with an inner diameter smaller than the outer diameter so that the insertion portion is pressed by the binding portion. .

Any one of the pair of the binding portion is integrally formed with the connection portion, and the other one of the pair of the binding portion and the connection portion may be fastened by a screw method.

According to the connection structure of the steel pipe pile according to an embodiment, since the welding operation is deleted and the number of connecting materials connecting between the steel pipe piles can be selected and adjusted, the workability between the steel pipe piles is improved and the connection between the steel pipe piles is improved. The strength can be adjusted in response to the required tensile strength.

1 is a side cross-sectional view showing a steel pipe pile connection structure according to an embodiment.
Figure 2 is a cross-sectional plan view showing a steel pipe pile connection structure according to an embodiment.
3 is an exploded perspective view of an upper steel pipe pile and a lower steel pipe pile connected by a steel pipe pile connection structure according to an embodiment.
Figure 4 shows a state in which the expansion portion is formed in the lower steel pipe pile in the state of FIG.
5 shows a state in which the first hole and the second hole are formed in the lower steel pipe pile and the upper steel pipe pile in the state of FIG. 4.
Figure 6 shows the state before installation of the connecting material connecting the lower steel pipe pile and the lower steel pipe pile in the state of FIG.
7 is a side cross-sectional view showing a modification of the steel pipe pile connection structure according to an embodiment.
8 is a cross-sectional view showing another modification of the steel pipe pile connection structure according to an embodiment.
9 is a plan cross-sectional view showing another modification of the steel pipe pile connection structure according to an embodiment.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. The embodiments introduced below are provided as examples in order to sufficiently convey the spirit of the present invention to those skilled in the art to which the present invention pertains. The present invention is not limited to the embodiments described below and may be embodied in other forms. In order to clearly describe the present invention, parts irrelevant to the description are omitted in the drawings, and in the drawings, the width, length, and thickness of components may be exaggerated for convenience. Throughout the specification, the same reference numbers refer to the same components.

1 to 2, the steel pipe pile connection structure according to an embodiment is for connection between the lower steel pipe pile 10 and the upper steel pipe pile 20, the lower steel pipe pile 10 and the upper steel pipe The pile 20 can be used as a pile foundation for supporting superstructures in an interconnected state.

The lower steel pipe pile 10 has an expansion pipe 11 at its upper end. The lower end of the upper steel pipe pile 20 forms an insertion portion 21, and the expansion portion 11 is expanded to have an inner diameter corresponding to the outer diameter of the upper steel pipe pile 20 so that the insertion portion 21 is inserted and supported inward. It can be provided.

3 to 4, the upper steel pipe pile 20 and the lower steel pipe pile 10 may have the same inner diameter and outer diameter as the length, and the expanded portion 11 of the lower steel pipe pile 10 It can be formed by expanding the upper end. At this time, the upper end of the lower steel pipe pile 10 may be expanded using an expansion tool operated by hydraulic pressure.

Between the insertion portion 21 and the expansion portion 11, the insertion portion 21 is bound by at least one connecting member 30 in a state where the expansion portion 11 is inserted.

5 to 6, at least one pair of first holes 12 communicating with the inside of the expansion pipe 11 and facing each other is provided around the expansion pipe 11 for installation of the connecting material 30 It is provided, and at the periphery of the insertion portion 21, at least one pair of second holes 22 communicating with the interior of the insertion portion 21 and facing each other is provided to coincide with the first hole 12. And the connecting member 30 is a pair of binding portions (31,32) for binding between the first hole 12 and the second hole (22) of both sides coincide with each other, and a pair of binding parts (31,32) It includes a connecting portion 33 to support the connection between.

To facilitate the installation of the connecting member 30, any one of the pair of binding parts 31 and 32 and the connecting part 33 may be provided to be fastened by a screw method.

To this end, the connecting portion 33 is provided in the form of a rod having a male screw 33a on the outer circumference of the end, and the binding portion 31 is formed with a female screw 31b formed on the inner circumference so that the end of the connecting portion 33 is fastened by a screw method. A hole 31a may be provided. A tool insertion groove 31c may be provided in the binding portion 31 to rotate the binding portion 31. Therefore, the binding portion 31 can be rotated by a rotary tool such as a wrench inserted into the tool insertion groove (31c).

One of the pair of binding parts 31 and 32 may be integrally formed to form one body with the connecting part 33 at one end of the connecting part 33 so that the installation work of the connecting material 30 can be more easily performed. The binding part 32 may be provided to form one body with the connection part 33 when forming the connection part 33.

Of course, when forming the binding hole (31a) on both the binding portion (31,32), and forming the male thread (33a) on the outer periphery of both ends of the connection portion 33, a pair of binding portion (3132) is a connection portion (33) ) It may be possible to fasten the screws on both ends.

In this way, the connection member 30 installed using a screw-type fastening structure can contribute to improve the connection workability between the steel pipe piles 10 and 20.

Therefore, the insertion portion 21 is inserted into the expansion tube 11 and the pair of first holes 12 are matched with the pair of second holes 22 while the pair of binding portions 31 and 32 May be connected to each other in a state fastened to the first hole 12 and the second hole 22 on both sides coincident with each other. At this time, the binding portion 32 is fastened to the inside of the first hole 12 and the second hole 22 matched from the outside of the first hole 12 on one side together with the connection portion 33, and the binding portion 31 is the other side It can be coupled to the end of the connecting portion 33 while being fastened to the inside of the first hole 12 and the second hole 22 matched from the outside of the first hole 12. The binding parts 31 and 32 may be configured to be short so as to prevent protrusion to the outside while being fastened inside the first hole 12 and the second hole 22.

Referring to FIG. 1 again, the second hole 22 may be provided with an inner diameter smaller than an outer diameter such that the insertion portion 21 is pressed by the binding portions 31 and 32. Therefore, in the state in which the connecting material 30 is installed, the binding parts 31 and 32 support the insertion part 21 in a pressurized state, so that the expansion part 11 and the insertion part 21 are more stably integrated. can do.

The second hole 22 is provided with a small-diameter hole 22a formed on the inner surface side and a large-diameter hole 22b formed on the outer surface side to have a larger diameter than the small-diameter hole 22a, so as to step in the fastening direction of the binding parts 31 and 32 It may be provided to have. The binding parts 31 and 32 may be provided in a cylindrical shape having a constant diameter in the longitudinal direction, and the diameters of the large diameter holes 22b and the first holes 12 may be provided to be about the diameter of the binding parts 31 and 32. .

In order to stably integrate the expansion pipe portion 11 and the insertion portion 21, the expansion pipe portion 11 may be pressed toward the insertion portion 21 by the binding portions 31 and 32. That is, as shown in FIG. 7 showing a modification according to an embodiment, the first hole 12' and the second hole 22' and the binding portions 31', 32' are the binding portions 31', 32 When the end of the fastening direction of ´) is configured to be smaller than the opposite diameter, the expansion part 11 can be supported by being pressed toward the insertion part 21 by the binding parts 31′ and 32′. do.

In addition, the first hole 12 and the second hole 22 may be configured to form a plurality of pairs so that the expansion tube 11 and the insertion portion 21 are bound by a plurality of connecting members 30. Therefore, in such a steel pipe pile connection structure, the number of the first hole 12 and the second hole 22 in a pair and the number of the connecting material 30 contributing to the binding of the expansion portion 11 and the insertion portion 21 are determined. Since it can be adjusted, it is possible to adjust the connection strength between the steel pipe piles 10 and 20 corresponding to the required tensile strength.

That is, as shown in FIGS. 8 to 9, the tensile strength of the interconnected steel pipe piles 10 and 20 is increased so that the number of connecting members 30 that binds the expansion portion 11 and the insertion portion 21 is increased. It can grow.

Therefore, according to the above-described connection structure of the steel pipe pile, the steel pipe pile 10 is reduced by increasing the number of the connecting material 30 in areas where strong earthquakes occur frequently and reducing the number of the connecting material 30 in areas where weak vibration occurs mainly. 20) It is possible to adjust the connection strength between corresponding to the required tensile strength.

A plurality of pairs of first holes 12 are provided along the circumference of the expansion portion 11 so as to run in phase with each other so that interference does not occur between the connecting materials 30 in the process of installing the plurality of connecting materials 30 In addition, the plurality of pairs of second holes 22 may be provided along the periphery of the insertion portion 21 so as to run in phase with each other along the axial direction.

Therefore, the plurality of connecting members 30 are installed together so that the connecting portions 33 cross each other inside the insertion portion 21, and the plurality of connecting portions 33 in this state are axially so as to increase the supporting force against the compressive load. It can be provided to be mutually supportive.

10: lower steel pipe pile 11: expansion pipe
12: first hole 20: upper steel pipe pile
21: insertion section 22: second hole
30: connecting material 31,32: binding portion
33: connection

Claims (6)

In the connection structure of the steel pipe pile connecting between the upper steel pipe pile and the lower steel pipe pile,
The lower steel pipe pile is provided with an expanding portion at the upper end so that the lower end of the upper steel pipe pile forming the insertion portion is inserted and supported inward,
Between the insertion portion and the expansion portion is bound by at least one connecting member in the state that the insertion portion is inserted into the expansion portion,
At least a pair of first holes communicating with the inside of the expansion portion and facing each other are provided around the expansion portion,
Around the insertion portion is provided with at least one pair of second holes communicating with the inside of the insertion portion and facing each other so as to coincide with the first hole,
The connecting material is a steel pipe pile connection structure including a pair of binding parts for binding between the first hole and the second hole on both sides coinciding with each other, and a connection part for connecting and supporting the pair of the binding parts. According to claim 1,
The first hole and the second hole each form a plurality of pairs,
The connecting material has a plurality of steel pipe pile connection structure. According to claim 2,
A plurality of pairs of the first hole is provided along the circumference of the bulging portion to run in phase with each other along the axial direction
A plurality of pairs of the second hole is a steel pipe pile connection structure provided along the periphery of the insertion portion so as to run in phase with each other along the axial direction. According to claim 3,
A plurality of the connecting material is a steel pipe pile connection structure in which the connecting portions are supported in the axial direction in a state where they intersect in the inserting portion. According to claim 1,
The binding portion is fastened to the inside of the first hole and the second hole coinciding with each other outside the first hole,
The second hole has a steel pipe pile connection structure provided with an inner diameter smaller than an outer diameter so that the insertion portion is pressed by the binding portion. According to claim 1,
Any one of the pair of the binding portion is formed integrally with the connection portion, the steel pipe pile connection structure is fastened by a screw method between the other of the pair of the connection portion and the connection portion.

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