KR101353492B1 - Multiple axis joint for file foundation - Google Patents

Abstract

The present invention relates to a multi-axis joint for joining pile foundation used for a multiple support pile foundation capable of making a structure, such as a solar panel support, a pergola, a roof structure of a ground parking lot, a bus stop structure, a billboard, and the like, to ensure resistance to a horizontal load as well as a vertical load and, more specifically, relates to a multi-axis joint for joining pile foundation capable of accurately controlling the location where a plurality of unit piles and a base plate are coupled. The multi-axis joint for joining pile foundation of the present invention relates to a multi-axis joint for coupling a plurality of unit piles installed in the ground to a base plate on which a structure is coupled and includes: a first coupling part having one end coupled on the upper end of a unit pile; a connection link having one end hinged to the other end of the first coupling part by a first hinge pin; and a second coupling part having one end hinged to the other end of the connection rink by a second hinge pin and the other end hinged to the base plate, wherein the hinge shaft of the first hinge pin is vertical to the hinge shaft of the second hinge pin.

Description

MULTIPLE AXIS JOINT FOR FILE FOUNDATION}

The present invention is to be used in a multi-support pile foundation that can ensure resistance to horizontal loads as well as vertical loads, such as solar panel support, pagora, roof structure of ground parking lot, bus platform structure, billboard, etc. Specifically, the present invention relates to a multi-axis joint for pile foundation joining, which can precisely adjust the joining position of a plurality of unit piles and a base plate.

The pile is inserted into the ground to support the upper structure. In general, in the construction and construction of civil engineering structures, a plurality of piles simultaneously support the lower portion of the structure and bear the upper vertical load in order to secure stability and prevent settlement.

On the other hand, structures such as solar panel supports, pagora, roof structures of ground parking lots, bus platform structures, billboards, etc., support or transfer the upper loads to the ground by piles consisting of one or a few posts inserted into the ground (patent patent). 10-0905069, etc.).

However, since the pile supporting the solar panel support is usually composed of steel pipes with a predetermined diameter, it is advantageous in transportation and construction due to its low weight. It is easy to be affected by external force.

Therefore, it is necessary to consider a pile that is light in structure and excellent in resistance to horizontal load such as wind load as well as a vertical load due to its simple structure, and a method of reducing the load on the lateral force by using a plurality of unit piles is considered.

However, in order to construct a plurality of unit piles first, and to construct a structure on top of them, it is necessary to coincide the horizontal planes between the unit piles. .

In order to solve the above problems, the present invention is to be applied to the pile foundation that can ensure the resistance to the lateral force even with the pile foundation portion inserted into the ground, a combination of a plurality of unit pile and the base plate coupled to the upper portion It is an object of the present invention to provide a multiaxial joint for pile foundation joining that can maintain its position accurately.

The present invention according to a preferred embodiment to solve the above problems relates to a multi-axis joint for coupling a plurality of unit piles in the ground to the base plate coupled to the structure, one end is coupled to the top of the unit pile The first coupling portion is; A connecting link having one end hinged by the other end of the first coupling part and a first hinge pin; And a second coupling part of which one end is hinged by the other end of the connection link and the second hinge pin and the other end is coupled to the base plate. Consisting of, the hinge axis of the first hinge pin and the hinge axis of the second hinge pin provides a multi-axis joint for pile foundation coupling, characterized in that perpendicular to each other.

The present invention according to another preferred embodiment provides a multi-axial joint for pile foundation coupling, characterized in that the fixing portion for coupling to the unit pile and the upper structure, respectively, at the lower end of the first coupling portion and the upper portion of the second coupling portion.

According to another preferred embodiment of the present invention, the fixing part provides a multi-axial joint for pile foundation joining, characterized in that the threaded portion is formed on the outer circumferential surface or the coupling hole is formed in the thread.

The present invention according to another preferred embodiment provides a multi-axial joint for pile foundation joining, characterized in that the supporting portion for supporting the bottom of the upper structure protrudes on the side of the second coupling portion.

According to another exemplary embodiment of the present invention, a screw thread is formed on an outer circumferential surface of the second coupling part, and a support hole is formed in the center of the support, so that the coupling hole is screwed to the outer circumferential surface of the second coupling part to adjust the height according to the rotation of the support part. It is possible to provide a multi-axial joint for pile foundation joining.

According to the present invention as described above, the following effects can be obtained.

First, in a pile foundation that can secure excellent resistance to vertical loads as well as horizontal loads by incorporating a plurality of unit piles into the ground, a plurality of unit piles and a base plate are formed by using a multi-axis joint that can be bent in two directions. The engagement position can be adjusted accurately.

Secondly, since a plurality of unit files are entered into the ground, the indentation length of the pile foundation can be shortened and a small diameter file can be used, thereby minimizing the influence on the ground condition and excellent in construction.

Third, in the case of using the multi-axial joint for pile foundation joining of the present invention, when it is not possible to arrange a multi-support pile foundation such as a ground boundary line inclined, the unit pile can be entered in the vertical direction. Therefore, space utilization is excellent.

1 is a perspective view of a pile foundation to which the multi-axial joint for pile foundation joining of the present invention is applied.
2 is an exploded perspective view of a pile foundation to which the multi-axial joint for pile foundation joining of the present invention is applied.
Figure 3 is a perspective view of the multi-axial joint for pile foundation joining of the present invention.
Figure 4 is an exploded perspective view of the multi-axial joint for pile foundation joining of the present invention.
5 to 7 are perspective views showing various embodiments of the multi-axial joint for pile foundation joining of the present invention.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings and preferred embodiments.

1 and 2 are respectively a perspective view and an exploded perspective view of a pile foundation to which the present invention pile foundation coupling multi-axis joint is applied, and FIGS. 3 and 4 are respectively a perspective view and an exploded perspective view of the pile foundation coupling multi pile joint according to the present invention.

The multi-axial joint for pile foundation coupling of the present invention relates to a multi-axis joint 20 for coupling a plurality of unit piles 10 entered into the ground to the base plate 30 to which the structure 40 is coupled at the top. A first coupling part 21 coupled to the upper end of the unit pile 10; A connection link 22 having one end hinged by the other end of the first coupling part 21 and the first hinge pin 24; And a second coupling part 23 one end of which is hinged by the other end of the connection link 22 and the second hinge pin 25 and the other end of which is coupled to the base plate 30. The hinge shaft 241 of the first hinge pin 24 and the hinge shaft 251 of the second hinge pin 25 are perpendicular to each other.

The present invention is applied to a pile foundation capable of securing resistance against not only vertical load but also horizontal load by using a plurality of unit piles 10 mounted in the ground at a predetermined angle with a vertical or vertical direction.

That is, the multi-axial joint for pile foundation coupling of the present invention, as shown in Figures 1 to 2, a plurality of unit pile 10, the multi-axial joint 20 is coupled to each of the upper end of the unit pile 10 and the It is applied to the pile foundation consisting of a base plate 30 to which the structure 40 is coupled to the upper as a coupling through the multi-axial joint 20 on the upper end of the plurality of unit pile (10).

The plurality of unit piles 10 share the load of the upper structure 40. Therefore, by using the plurality of unit piles 10, the indentation length of the pile foundation can be shortened and a small diameter pile can be used, thereby minimizing the effect of the ground condition on the pile construction.

The unit pile 10 may be formed of a light pipe having excellent strength. In addition, the unit pile 10 may form a screw thread on the outer circumferential surface, and the end portion inserted into the ground may be pointed and tapered to be easily inserted into the ground.

As can be seen in Figures 3 to 4, the multi-axis joint 20 is bendable in two directions, the first coupling portion 21 and the second coupling portion 23 is a unit pile 10 and It is coupled to the base plate 30. In this case, the first and second coupling parts 21 and 23 are hinged to the connection link 22 by the first and second hinge pins 24 and 25, respectively, and the first and second hinge pins 24 and 25. The hinge axes 241 and 251 of are positioned to be perpendicular to each other.

3 and 4, the first and second coupling parts 21 and 23 form a groove at an end portion, and both ends of the connection link 22 are inserted into the groove for coupling with the connection link 22. It was made. Both ends of the connecting link 22 are formed with through holes forming the hinge shafts 241 and 251 to be perpendicular to each other for insertion of the first and second hinge pins 24 and 25. The first and second hinge pins 24 and 25 are inserted to penetrate one end of the first coupling part 21 and the connection link 22 and the other ends of the second coupling part 23 and the connection link 22, respectively. Hinged the connection link 22 and the first and second coupling portions 21 and 23. As a result, the multi-axial joint 20 can rotate in two directions with respect to the unit pile 10 inserted in the ground.

When connecting the base plate 30 after the unit pile 10 is first entered into the ground, the multi-axial joint 20 coupled to the upper end of the unit pile 10 may be bent in two directions. In addition, the second coupling part 23 may be exposed to an upper portion of the base plate 30, and may be configured to penetrate any one of a plurality of coupling holes 31 formed in the base plate 30.

Therefore, the position of the upper end of the plurality of unit piles 10 can be accurately positioned in the coupling hole 31 of the base plate 30, so that the precise construction of the base plate 30 is possible.

The base plate 30 may be provided with a structure 40 such as a steel post or concrete column, such as steel pipe or section steel.

In addition, fixing parts 211 and 231 for coupling to the unit pile 10 and the upper structure 40 may be provided at the lower end of the first coupling part 21 and the upper end of the second coupling part 23, respectively. .

The fixing parts 211 and 231 will be described with reference to FIG. 5.

5 to 7 are perspective views showing various embodiments of the multi-axial joint for pile foundation joining of the present invention.

As can be seen in Figure 5 (a) to (b), the fixing portion (211, 231) is a screw thread formed on the outer peripheral surface (211 ', 231') or a threaded hole formed therein (211 ") , 231 ").

The fixing parts 211 and 231 are for coupling with the unit pile 10 or the upper structure 40, and the fixing parts 211 and 231 are threaded parts 211 'and 231' having threads formed on the outer circumferential surface thereof. The unit pile 10 or the upper structure 40 may be formed of a steel pipe formed with a thread having a shape corresponding to the inner circumferential surface so as to be coupled along these threads.

In addition, when the fixing parts 211 and 231 are formed of coupling holes 211 ″ and 231 ″ having threaded threads therein, the unit pile 10 or the upper structure 40 may be combined with these coupling holes 211 ″ and 231. ") It can be composed of a steel pipe formed with a thread of a shape corresponding to the outer peripheral surface so as to be coupled along the thread inside.

In the present invention, since the first and second coupling portions 21 and 23 of the multi-axial joint 20 can be combined with the unit pile 10 or the upper structure 40 along the thread, respectively, the unit pile 10 or the upper structure. The installation height of 40 can be adjusted.

In addition, as can be seen in Figure 6, the side of the second coupling portion 23, the support portion 232 for supporting the bottom of the upper structure 40 may be formed protruding.

The support part 232 transfers the load of the upper structure 40 to the lower unit pile 10 through the base plate 30, and supports the bottom of the base plate 30 to increase the height of the base plate 30. Keep constant

In addition, as can be seen in Figure 7, the outer circumferential surface of the second coupling portion 23 is formed with a screw thread, the support portion 232 is a coupling hole is formed in the center of the coupling hole is the second coupling portion 23 outer peripheral surface The screw is coupled to it characterized in that the height can be adjusted according to the rotation of the support (232).

Accordingly, when the upper heights of the plurality of unit piles 10 are different from each other, the base plate 30 may be adjusted to form a horizontal plane by adjusting the height of the support part 232.

10: unit file 20: multi-axis joint
21: first coupling portion 211: fixed portion
211 ': Thread 211 ": Coupling hole
22: connecting link 23: second coupling part
231: fixing portion 231 ': screw portion
231 ": engagement hole 232: support
24: first hinge pin 241: hinge axis
25: second hinge pin 251: hinge axis
30: base plate 31: coupling hole
40: structure N: nut

Claims (5)

Regarding the multi-axis joint 20 for coupling the plurality of unit piles 10 entered into the ground to the base plate 30 to which the structure 40 is coupled,
A first coupling part 21 having one end coupled to an upper end of the unit pile 10;
A connection link 22 having one end hinged by the other end of the first coupling part 21 and the first hinge pin 24; And
A second coupling part 23 of which one end is hinged by the other end of the connection link 22 and the second hinge pin 25 and the other end is coupled to the base plate 30; Respectively,
The hinge shaft 241 of the first hinge pin 24 and the hinge shaft 251 of the second hinge pin 25 are perpendicular to each other, characterized in that the pile axis coupling.
The method of claim 1,
Pile base, characterized in that the fixing portion (211, 231) for coupling to the unit pile and the upper structure 40, respectively, on the lower end of the first coupling portion 21 and the second coupling portion (23) Multiaxial joints for joining.
3. The method of claim 2,
The fixing portion (211, 231) is a screw thread formed on the outer peripheral surface (211 ', 231') or a screw thread formed therein coupling holes (211 ", 231"), characterized in that the pile-based coupling multi-axis joint.
The method of claim 1,
The side of the second coupling portion 23, the support portion 232 for supporting the bottom of the upper structure 40 is characterized in that the pile-based coupling multi-axial joint, characterized in that protruding.
5. The method of claim 4,
A screw thread is formed on an outer circumferential surface of the second coupling part 23, and a support hole is formed in the center of the support part 232 so that the coupling hole is screwed to an outer circumferential surface of the second coupling part 23 so as to rotate the support part 232. Multi-axis joints for pile foundation joining, characterized in that the height can be adjusted accordingly.

Images