KR102104021B1 - Apparatus for connecting steel pipe - Google Patents

Abstract

The steel pipe connecting device according to the present invention is provided with a first locking portion and a first uneven portion, a pin joint having a first groove formed in a circumferential direction on an outer surface, a second locking portion and a second uneven portion, and a pin joint A box joint having a second groove forming a circumferential groove together with the first groove when fastening, and a first shear heat-setting material that is fastened to the circumferential groove to constrain the axial relative movement of the pin joint and the box joint, and includes a pin When the joint and the box joint are joined, the first locking portion is fitted into the second uneven portion, and the second locking portion is fitted into the first uneven portion, restraining the relative relative movement of the pin joint and the box joint, and provided on the first uneven portion The first elastic body is inserted into the first receiving groove, and the first pressing portion protruding from the first locking portion presses and seals the elastic body during construction, and the second elastic body is inserted into the second receiving groove provided in the second locking portion , In the second irregularities The projecting second pressing portion may be sealed by pressing the elastic body during construction.

Description

Steel pipe connection device {APPARATUS FOR CONNECTING STEEL PIPE}

The present invention relates to a steel pipe connecting device for mechanically connecting the upper steel pipe and the lower steel pipe without welding at the construction site of the steel pipe pile.

Pile foundation is one of the basic types used to stably support the upper structure on the ground, and concrete pile and steel pipe pile are used. Concrete piles have the advantage of low cost of materials and low resistance to shearing and bending moments, whereas steel pipe piles have a high lateral force (horizontal force) due to their excellent resistance to shearing and bending moments, although they are expensive. It is widely used as a pile foundation for structures.

Since the steel pipe pile is manufactured to a certain length (12 m to 15 m) in the steel pipe yarn, it is necessary to connect the upper steel pipe pile and the lower steel pipe pile when the depth of penetration exceeds the steel pipe length at the construction site. The connection method for connecting them is a method of joining two steel pipes metallurgically by a welding method or a method of connecting two steel pipes using a mechanical connection device.

The method of metallurgically welding the upper steel pipe pile and the lower steel pipe pile requires a welding operation and non-destructive inspection at the construction site, which increases the construction period, and when drawing the steel pipe pile, there is a difficulty in cutting and drawing, while mechanically without welding. Since the connection method does not require welding and non-destructive inspection in the field, there is an advantage that the construction period is shortened and the disassembly is easily performed during drawing.

Conventional steel pipe pile mechanical connection device is composed of pin joint, box joint, and so on. The pin joint faces the groove of the box joint, and the outer circumferential groove is cut. After inserting the box joint in which the upper steel pipe is circumferentially welded to the pin joint in which the lower steel pipe is circumferentially welded, the shear connector inserted into the inner circumferential groove of the box joint is inserted into the groove of the pin joint by rotating the bolt, so that the box joint and the pin joint member are integrated. The mechanical coupling of the steel pipe is completed.

On the other hand, oil or gas excavated from the seabed is generally transported to the land through these steel pipe piles, and these steel pipe pile lines must be sealed against external water pressure or internal oil or gas pressure. .

JP 3336430 B2 (KUBOTA CORP) 2002.08.09. (Registration date)

The present invention firmly couples the box joint and the pin joint using a shear connector, suppresses circumferential rotation, guarantees sealing against external water pressure or internal pressure, reduces the thickness of the mechanical connection device, and further improves economic efficiency and workability. It aims to improve.

According to one aspect of the invention, the first locking portion and the first uneven portion is provided, the pin joint having a first groove formed in the circumferential direction on the outer surface; A box joint having a second locking portion and a second uneven portion, and having a second groove forming a circumferential groove together with the first groove when fastened to the pin joint; And a first shearing heat fastener that is fastened to the circumferential groove and constrains the axial relative movement of the pin joint and the box joint. When the pin joint and the box joint are engaged, the first locking portion is the second uneven portion. Fitted in, the second locking portion is fitted to the first concave-convex portion, to constrain the radial relative movement of the pin joint and the box joint, a first elastic body is inserted into the first receiving groove provided in the first concave-convex portion A second elastic body is inserted into the second receiving groove provided in the first locking portion, and the first pressing portion protruding from the second locking portion is pressed and sealed by pressing the elastic body during construction, and protruding from the second uneven portion The second pressing portion to be provided may be provided with a steel pipe connecting device for sealing by pressing the elastic body during construction.

The pin joint is provided with a rotating constraining groove, and the box joint is provided with a connecting groove extending from the outer surface toward the second groove, fastened to the connecting groove and the rotating constraining groove, and of the pin joint and the box joint. It may further include; a second shear connector for restraining relative movement in the circumferential direction.

The connection groove is a communication hole communicating with the second groove; A rotation confinement hole formed on an opposite surface of the rotation confinement groove; And a stepped surface formed to be stepped inward on the outer circumferential surface of the box joint.

The second shear connecting member includes an axial restraining portion restraining axial relative movement of the pin joint and the box joint together with the first shear connecting member; A circumferential restraining part fitted to the rotation constraining groove; And a cover plate fastened to the step surface.

The rotation constraining groove is provided perpendicular to the first groove, the axial restraint portion and the circumferential restraint portion are integrally provided, and may protrude crosswise from the cover plate.

The first engaging portion is provided with an outer engaging inclined portion inclined toward the protruding end from the inner circumferential surface of the pin joint and an inner engaging inclined portion inclined toward the first engaging portion in which the first groove is formed in the protruding end, and the first irregularities In the part, an outer concave inclined portion inclined toward an inner accommodating portion from an outer circumferential surface of the pin joint and an inner concave inclined portion inclined toward the first coupling portion in the outer concave inclined portion are provided, and the box joint is coupled to the pin joint A second engaging portion in which the second groove is formed facing the first groove, a second uneven portion having a shape corresponding to the first engaging portion, and a second engaging portion having a shape corresponding to the first uneven portion Can be prepared.

The first shear connecting material has a cross section corresponding to the circumferential groove, and is inserted into the circumferential groove through the connecting groove and divided into a plurality of arc-shaped steel pipe connecting devices to fill the circumferential groove.

In the steel pipe connecting device according to the present invention, the box joint and the pin joint are connected without an empty space, so that sufficient structural rigidity can be secured and economical efficiency and manufacturing efficiency can be improved through a significant reduction in thickness.

In addition, since the relative rotation of the box joint and the pin joint in the circumferential restraining portion of the second shear connecting material can be suppressed without a separate rotation inhibiting device, manufacturing cost can be reduced and construction convenience can be improved.

In addition, during construction, the pressing portion of the box joint exerts a force on the elastic body by the weight of the box joint, and from this, the elastic body applies pressure to the wall of the receiving groove to ensure sealing. From this, the sealing can be completed only with the weight of the upper pipe without the need for additional construction equipment, and can resist various loads such as compression and tension.

1 is an exploded perspective view of a part of a steel pipe connecting device according to a first embodiment of the present invention.
FIG. 2 is a side sectional view before assembly of FIG. 1.
3 is a side cross-sectional view after assembly of FIG. 1.
Figure 4 shows how the first shear connecting material is installed as a circumferential groove of the steel pipe connecting device according to the first embodiment of the present invention.
5 is a side cross-sectional view after the first shear connector is installed in FIG.
6 shows a state in which the second shear connector is installed in the steel pipe connecting device according to the first embodiment of the present invention.
7 is a cross-sectional plan view of FIG. 6.
8 is a side sectional view before assembly of a steel pipe connecting device according to a second embodiment of the present invention.
9 is a side cross-sectional view after assembly in FIG. 8.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. The following examples are presented to sufficiently convey the spirit of the present invention to those of ordinary skill in the art. The present invention is not limited to the embodiments presented herein, but may be embodied in other forms. The drawings may omit the illustration of parts irrelevant to the description in order to clarify the present invention, and the size of components may be exaggerated to facilitate understanding.

1 is an exploded perspective view of a part of a steel pipe connecting device according to a first embodiment of the present invention, FIG. 2 is a side cross-sectional view before assembly of FIG. 1, and FIG. 3 is a side cross-sectional view after assembly of FIG. 1. And Figure 4 shows a state in which the first shear connector 130 is installed as a circumferential groove (S) formed between the pin joint 110 and the box joint 120, Figure 5 is the first shear connector 130 in Figure 4 ) Shows the side sectional view after installation.

Referring to the drawings, the steel pipe connecting device according to the first embodiment of the present invention is a device for connecting neighboring steel pipes, a pin joint 110 fixedly coupled to one end of the steel pipes 10 and 20, and a steel pipe 10 , 20) provided with a box joint 120 fixedly coupled to the other end, and a first shear connector 130 for restraining the relative movement of the pin joint 110 and the box joint 120 in the vertical direction.

The pin joint 110 may be welded to the upper portion of the lower steel pipe 10 and the box joint 120 may be welded to the lower portion of the upper steel pipe 20. That is, the steel pipe connecting device is for connecting the upper and lower parts of the neighboring steel pipes 10 and 20, and a pin joint 110 is provided on the upper side of the lower steel pipe 10, and a box joint is provided on the lower side of the upper steel pipe 20. 120 is provided.

The pin joint 110 has a cylindrical shape and can be welded to the upper portion of the lower steel pipe 10. Specifically, the pin joint 110 is formed with a first engaging portion 113 formed on the upper portion of the lower steel pipe 10 and protruding outwardly, and has a first concavo-convex portion having a structure of a projection 112a and a groove 112b ( 112).

The first groove 115 is formed in the circumferential direction on the outer circumferential surface of the first coupling portion 113. In addition, a first locking portion 114 formed to be stepped inward from the outer circumferential surface of the first coupling portion 113 is formed at the front end portion of the first coupling portion 113.

The box joint 120 has a cylindrical shape and is fastened by welding to the lower portion of the upper steel pipe 20. Specifically, the box joint 120 has a protrusion 124a and a groove 124b so as to come into contact with the second engaging portion 123 and the first locking portion 114 formed in the vertical direction on the lower portion of the upper steel pipe 20. The second concavo-convex portion 124 having the structure of is provided.

The second groove 125 is formed in the circumferential direction on the inner circumferential surface of the second coupling portion 123. At this time, the inner diameter of the second coupling portion 123 is provided to have a diameter corresponding to the outer diameter of the first coupling portion 113. In addition, the length of the second coupling portion 123 has a length corresponding to the length of the first coupling portion 113. Accordingly, when the pin joint 110 and the box joint 120 are coupled, the first coupling portion 113 of the pin joint 110 is fitted to the box joint 120 and the outer circumferential surface of the first coupling portion 113 and the second The inner circumferential surface of the coupling portion 123 makes surface contact.

Meanwhile, a second locking portion 122 stepped inward from the outer circumferential surface of the second coupling portion 123 is formed at a lower end of the second coupling portion 123. The second locking portion 122 is configured to contact the first uneven portion 112 when the pin joint 110 and the box joint 120 are engaged.

The overall shape of the pin joint 110 and the box joint 120 is cylindrical, and the upper side of the pin joint 110 and the upper side of the box joint 120 have a shape corresponding to each other. Thus, when the pin joint 110 and the box joint 120 are engaged, the protruding portion of the first locking portion 114 is fitted into the groove 124b of the second uneven portion 124 and the second locking portion 122 ), The protruding portion is fitted into the groove 112b of the first uneven portion 112.

When the pin joint 110 and the box joint 120 are combined, the first groove 115 and the second groove 125 are formed at positions corresponding to each other. Accordingly, a circumferential groove S having a rectangular cross section is formed between the pin joint 110 and the box joint 120 by the first groove 115 and the second groove 125.

The connecting groove 126 is formed in communication with the second groove 125 on the outer circumferential surface of the box joint 120 in order to insert the first shear connection material 130 to be described later in the circumferential groove S. That is, the connecting groove 126 is formed on the outer circumferential surface of the box joint 120, and is formed at a position corresponding to the position where the second groove 125 is formed.

The connecting groove 126 is formed to have a predetermined length along the outer circumferential surface of the box joint 120. The connection groove 126 is a box joint 120 from a communication hole 126a communicating with the second groove 125, a rotational restraining hole 126b formed perpendicular to the communication hole 126a, and a communication hole 126a. ) Has a stepped surface 126c formed to be stepped with the outer circumferential surface of the box joint 120 in the radial direction. At this time, the communication hole 126a is for inserting the first shear connector 130, which will be described later, into the circumferential groove S, and the rotation restraining hole 126b is the circumferential direction of the pin joint 110 and the box joint 120 Relative rotation is restrained, and the step surface 126c has a function of an installation surface that is coupled to close the connection groove 126 through the second shear connection material 140 to be described later.

The shear connector comprises a plurality of first shear connectors 130 and a second shear connector 140 for final fastening, which are inserted into the circumferential groove S and the connecting groove 126 to provide a box joint 120 and a pin joint. The relative movement of (110) can be restrained.

The first shear connector 130 is inserted into the circumferential groove S and serves to constrain the axial relative movement of the pin joint 110 and the box joint 120. The circumferential groove (S) is formed by combining the first groove (115) of the pin joint (110) and the second groove (125) of the box joint (120). Is inserted to prevent the longitudinal departure of the pin joint 110 or the box joint 120.

The first shear connector 130 divided into a plurality has a cross section and a shape corresponding to the circumferential groove S to be inserted into the circumferential groove S to fill the circumferential groove S, respectively. The first front end connecting member 130 may be inserted into the circumferential groove S through the communication hole 126a of the connecting groove 126. That is, after inserting one first shear connector 130 into the circumferential groove S, an external force is applied to the inserted first shear connector 130 to move in the left or right circumferential direction of the circumferential groove S, By inserting another first shear connector 130 into the circumferential groove S, the process of moving in the circumferential direction is repeated to fill the empty space of the circumferential groove S.

The plurality of first shear connecting members 130 and the second shear connecting member 140 for finishing fastening have a number of lengths of the circumferential groove S divided by 1 / n so as to fill an empty space of the circumferential groove S. For example, the plurality of first shear connecting members 130 and the second shear connecting members 140 are divided to have an angle from 0 ° to 45 ° based on the central axis to fill the circumferential groove S having a circumference of 360 °. A total of seven first shear connecting members 130 and one second shear connecting member 140 may be provided. At this time, the connection groove 126 may be provided at an angle from 0 ° to 45 ° so that the first shear connection material 130 is inserted into the circumferential groove S through the communication hole 126a.

When the insertion of the first shear connecting member 130 is completed, the second shear connecting member 140 is finally coupled to close the connecting groove 126. The second front end connecting material 140 has a shape that matches the connecting groove 126. The second shear connecting material 140 is a box joint 120 through a fastening bolt (not shown) with the cover plate 143 in close contact with the step surface 126c so that the outer circumferential surface smoothly connects with the outer circumferential surface of the box joint 120. ).

The second shear connecting member 140 together with the first shear connecting member 130, the axial restraining portion 141 for restraining the axial relative movement of the pin joint 110 and the box joint 120, the rotation constraining groove 116 It may include a circumferential restraining portion 142 fitted to the cover plate 143 fastened to the step surface (126c). At this time, the axial restraint 141 and the circumferential restraint 142 may be integrally formed and protrude in a cross shape from the cover plate 143.

Therefore, the first shear connector 130 constrains the axial movement of the pin joint 110 and the box joint 120, and the second shear connector 140 constrains the axial movement and the circumferential movement, and the locking portion (112, 122) and the uneven portion (114, 124) by constraining the relative movement in the radial direction, it is possible to constrain all movement in the three-axis coordinate system of the steel pipe connecting device.

In addition, the box joint 120 and the pin joint 110 are connected without an empty space, so that sufficient structural rigidity can be secured, and economical efficiency and manufacturing efficiency can be improved by significantly reducing thickness. Furthermore, since the relative rotation of the box joint and the pin joint in the circumferential restraint portion 142 of the second shear connector 140 can be suppressed without a separate rotation inhibiting device, it is possible to reduce manufacturing cost and improve construction convenience. have.

8 is a side cross-sectional view before assembly of the steel pipe connecting device according to the second embodiment of the present invention, and FIG. 9 is a side cross-sectional view after assembly in FIG. 8.

In order for the shear connector 430 to be smoothly inserted, some tolerance and clearance are required, and when the tensile force acts on the steel pipes 10 and 20 due to this space, the shear connector 430 rotates, and the two box joints 420 ) And the pin joint 410 is separated to exert a force of destruction. At this time, each joint 410,420 undergoes a bending load, and destruction occurs at the starting point.

To this end, in the steel pipe connecting device according to the second embodiment, the thickness of the inner surface, which takes a lot of moment force compared to the end surface, may be provided. It is thickened obliquely from the end cross-section to the front end connecting member 430 portion, and then maintained vertically again at the front end connecting member 430 portion, and thereafter increases obliquely to the inner side.

This provides a strong resistance to external loads by making the end of the box joint 420 and the inner surface of the pin joint 410 contact across the shear surface, and inclining the end contact surface to prevent detachment between the two joints 410,420. Given, the two joints 410 and 420 are prevented from being deformed. And in this case, since it is manufactured in a smooth shape without protrusions and grooves at the end, it is also advantageous for manufacturing and processing.

Specifically, referring to the drawings, the pin joint 410 of the steel pipe connecting device according to the second embodiment of the present invention includes an outer concave inclined portion 412a and an outer concave inclined portion inclined toward an inner receiving portion 412b from an outer circumferential surface. In 412a), the first concavo-convex portion 412 having an inner concave-convex inclined portion 412c inclined toward the first coupling portion 413, and the outer locking inclined portion 414a and inclined toward the protruding end portion 414b from the inner circumferential surface A first engaging portion 414 having an inner engaging inclined portion 414c inclined toward the first engaging portion 413 in which the first groove 415 is formed at the end 414b may be provided.

Likewise, the box joint 420 includes an inner uneven inclined portion inclined toward the first coupling portion 423 from the outer uneven inclined portion 422a and an outer uneven inclined portion 422a inclined toward the inner accommodating portion 422b from the outer circumferential surface. 422c) the first concave-convex portion 422, and the first engaging portion formed with the first groove 425 at the outer locking inclined portion 424a and the protruding end portion 424b inclined toward the protruding end portion 424b from the inner circumferential surface ( 423) may be provided with a first locking portion 424 having an inner locking inclined portion 424c inclined toward the first locking portion 414 when the pin joint 410 and the box joint 420 are coupled through this. Is fitted to the second uneven portion 424, the second locking portion 422 is fitted to the first uneven portion 412, it is possible to constrain the radial relative movement of the pin joint 410 and the box joint 420. have.

As such, the uneven portions 412 and 422 and the locking portions 414 and 424 are configured to be inclined, respectively, to prevent desorption due to a force applied to each joint 410 and 420. That is, while forming an inclination at the protruding end portions 412b and 422b and extending to the coupling portions 413 and 423, the coupling portions 413 and 423 portions are maintained vertically and then inclined to the inner receiving portions 414b and 424b again. have.

On the other hand, the pipeline must be sealed against external water pressure or internal fluid pressure. To this end, in the steel pipe connecting device according to the second embodiment of the present invention, the first elastic body 416 is inserted into the first receiving groove 412d provided in the first uneven portion 412, and the first locking portion ( A second elastic body 417 is inserted into the second receiving groove 414d provided in 414, and the first pressing portion 422d protruding from the second locking portion 422 presses the elastic body 416 during construction. The second pressing portion 424d that seals and protrudes from the second uneven portion 424 may be sealed by pressing the second elastic body 417 during construction.

That is, the first pressing portion 422d is provided at the end of the box joint 420, and the first receiving groove 412d is provided in the pin joint 410 to correspond thereto. Prior to lowering the box joint 420 during construction, a first elastic body 416 serving as a sealing material is installed in the first receiving groove 412d of the pin. Then, when the box joint 420 descends, the first pressing portion 422d at the end is deformed while applying pressure to the first elastic body 416 by the weight of the pipe. At this time, while the first elastic body 416 is deformed, pressure is applied to all spaces in the groove, and external water pressure or pressure is prevented from entering.

Similarly, the second receiving groove 414d is provided at the upper end of the pin joint 410, and the second pressing portion 424d is provided at the corresponding box joint 420, and the second elastic body 417 is the second receiving groove 414d. ). During construction, the second pressing portion 424d of the box joint 420 applies a force to the second elastic body 417 by the weight of the box joint 420, from which the second elastic body 417 has a second receiving groove 414d. Pressure is applied to the wall of the to ensure sealing. From this, the sealing can be completed only with the weight of the upper pipe without the need for additional construction equipment, and can resist various loads such as compression and tension.

As described above, although the present invention has been described by a limited number of embodiments and drawings, the present invention is not limited by this, and the technical idea of the present invention and the following will be described by those skilled in the art to which the present invention pertains. Of course, various modifications and variations are possible within the equivalent scope of the claims to be described.

S: Circumferential groove 110: Pin joint
112: first uneven portion 113: first coupling portion
114: first locking portion 115: first groove
116: rotation confinement groove 120: box joint
122: second engaging portion 123: second engaging portion
124: 2nd uneven part 125: 2nd groove
126: connecting groove 126a: communication hole
126b: Revolving confinement hole 126c: Step surface
130: first shear connector 140: second shear connector
141: axial restraint 142: circumferential restraint
143: cover plate 410: pin joint
412: first uneven portion 412a: outer uneven slope portion
412b: inner receiving portion 412c: inner uneven slope portion
412d: first receiving groove 413: first engaging portion
414: first engaging portion 414a: outer engaging inclined portion
414b: protruding end portion 414c: inner locking inclined portion
414d: Second receiving groove 415: First groove
416: first elastic body 417: second elastic body
420: box joint 422: second engaging portion
422a: the outer engaging inclined portion 422b: the protruding end
422c: inner locking inclined portion 422d: first pressing portion
423: second engaging portion 424: second uneven portion
424a: outer uneven slope portion 424b: inner receiving portion
424c: inner uneven slope portion 424d: second pressing portion
425: second groove 430: shear connection material

Claims (7)

A pin joint provided with a first locking portion and a first uneven portion, and having a first groove and a rotation constraining groove formed in a circumferential direction on an outer surface;
A box joint having a second locking portion and a second uneven portion, a second groove forming a circumferential groove together with the first groove when fastening to the pin joint, and a connecting groove extending from the outer surface toward the second groove ;
A first shear connection material that is fastened to the circumferential groove to constrain the axial relative movement of the pin joint and the box joint; And
It is fastened to the connection groove and the rotation constraining groove, and includes a second shear connection material for restraining the circumferential relative movement and the axial relative movement of the pin joint and the box joint,
When the pin joint and the box joint are engaged, the first locking portion is fitted to the second concave-convex portion, and the second locking portion is fitted to the first concave-convex portion to constrain the radial relative movement of the pin joint and the box joint. ,
A first elastic body is inserted into the first receiving groove provided in the first uneven portion, and a second elastic body is inserted into the second receiving groove provided in the first locking portion,
The first pressing portion protruding from the second locking portion seals by pressing the first elastic body during construction, and the second pressing portion protruding from the second concave-convex portion presses and seals the second elastic body during construction,
The connection groove, a steel pipe connecting device including a communication hole communicating with the second groove, a rotational restraining hole formed on an opposite surface of the rotational constraining groove, and a stepped surface formed stepwise inside the outer peripheral surface of the box joint . delete delete According to claim 1,
The second shear connector
An axial restraint portion restraining axial relative movement of the pin joint and the box joint together with the first shear connector;
A circumferential restraining part fitted to the rotation constraining groove; And
Steel pipe connecting device comprising a; cover plate fastened to the step surface. According to claim 4,
The rotation confinement groove is provided perpendicular to the first groove,
The axial restraint and the circumferential restraint are integrally provided, and a steel pipe connecting device protruding in a cross shape from the cover plate. According to claim 1,
The first engaging portion is provided with an outer engaging inclined portion inclined toward the protruding end from the inner circumferential surface of the pin joint and an inner engaging inclined portion inclined toward the first engaging portion in which the first groove is formed in the protruding end,
The first concavo-convex portion is provided with an outer concave inclined portion inclined toward the inner accommodating portion from the outer circumferential surface of the pin joint, and an inner concave-concave portion inclined toward the first coupling portion from the outer concave-convex portion,
The box joint includes a second engaging portion in which the second groove facing the first groove when engaged with the pin joint, a second uneven portion having a shape corresponding to the first locking portion, and the first uneven portion Steel pipe connecting device is provided with a second locking portion of a shape corresponding to the portion. According to claim 1,
The first shear connecting material has a cross section corresponding to the circumferential groove, and is inserted into the circumferential groove through the connecting groove and is divided into a plurality of arc-shaped steel pipe connecting devices to fill the circumferential groove.

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