KR200464071Y1 - Spacer of multi steel pipes - Google Patents

Abstract

The present invention is a multi-stage steel pipe grouting method, it relates to a spacer for a multi-stage steel pipe is mounted on the steel pipe, the steel pipe can maintain the center distance in the drilling hole.
In the spacer for multi-stage steel pipe according to the present invention, the upper grip bent part 11 and the lower grip bent part 12 are respectively formed on the upper and lower ends of the semi-cylindrical member 10 in which the middle portion is convex outward, and the semi-cylindrical shape is The upper grip bending portion of the semi-cylindrical member 10 toward the side of the steel pipe 50 such that two members 10 form a pair so that the pair of semi-cylindrical members 10 are disposed in the steel pipe 50 facing each other. The upper capring 50 is a semi-cylindrical member 10 so that the upper grip ring 20 and the lower grip bent portion 12 are coupled to each other and disposed between the upper capring 20 of the steel material and the steel pipe 50 fitted to the steel pipe 50. The lower cap ring 30 of the semi-cylindrical member 10 so as to cover the upper grip bending portion 11 of the The upper cap ring 20 and the lower cap ring 30 are welded to the steel pipe 50, respectively, with the lower grip bending part 12 covered. do.

Description

Multistage Steel Pipe Spacer {SPACER OF MULTI STEEL PIPES}

The present invention is a multi-stage steel pipe grouting method, it relates to a spacer for a multi-stage steel pipe is mounted on the steel pipe, the steel pipe can maintain the center distance in the drilling hole.

Republic of Korea Patent Publication No. 10-2001-0112190 (published December 20, 2001) is introduced "a grouting method and apparatus using a double coupler spacer".

A grouting apparatus, comprising: a coupler spacer comprising: a plurality of wing-shaped spacers radially formed on a wall of the pipe with a hollow pipe; Tapered portions formed at both ends of the spacer to be inclined to facilitate insertion and drawing in the drill hole; Female threaded portion formed in a slightly tapered shape to prevent movement when the reinforcing bars and pipes at both ends of the tapered portion; A male screw portion formed on an outer circumferential surface of the female screw portion; Fastening bolts for tightening the reinforcing bars and pipes coupled to the male thread portion; The tapered female threaded portion is divided into grooves to allow the tapered female threaded portion to completely wrap in the reinforcing bars and pipes according to the rotational depth of the tightening bolt when tightened with the tightening bolt at the hollow portion of the male and female threads.

However, the inconvenience and hassle to move the tightening bolt and spacer to one end of the pipe to the desired position, when tightening the tightening bolt to fix the pipe, the detachable groove (incision) is further torn or the pipe in the hole There was a drawback of being disengaged from the fixed position when inserting.

Accordingly, an object of the present invention is to insert and fix the upper grip bending portion and the lower grip bending portion of the semi-cylindrical member to the side of the steel pipe, the upper grip bending portion and the lower grip bending portion is fitted to the upper cap ring and the lower cap ring, the upper cap ring and the lower cap ring Since the circumference of the cap ring is welded to the steel pipe, the operator can easily and precisely place it in the desired position, and can weld it mechanically, thereby enabling mass production, and the semi-cylindrical member when transporting the steel pipe and inserting it into the ground drilling hole. It is to provide a spacer for a multi-stage steel pipe that can prevent the fall from the steel pipe.

The multi-stage steel pipe spacer according to the present invention for achieving the above object is the upper grip bent portion and the lower grip bent portion is formed on the upper and lower ends of the semi-cylindrical member formed in the middle convex outward, semi-cylindrical member 2 The upper grip and lower grip bending portions of the semi-cylindrical members are joined to the sides of the steel pipe so that the dogs are paired so that the pair of semi-cylindrical members face each other, and the upper cap ring of steel material fitted to the steel pipe and With the upper cap ring covering the upper grip bending portion of the semi-cylindrical member to be disposed between the steel pipes, and the lower cap ring covering the lower grip bending portion of the semi-cylindrical member so that the upper cap ring is disposed between the lower caping of the steel material fitted to the steel pipe and the steel pipe. , The upper capping and the lower capping is characterized in that each welded to the steel pipe.

The semi-cylindrical member is formed by injection molding a plastic material, the middle part of which is convexly formed to the outside, four holes are formed, a sparse lattice is formed between the four holes, and a shovel is formed on the inner side of the grid. The reinforcement of the is formed integrally, characterized in that the grip bending portion is formed integrally at the top and bottom.

The upper capring is formed with a curved portion inwardly curved at the upper end of the ring-shaped portion formed of a steel material, characterized in that the curved portion that is attached to the steel pipe is welded to the steel pipe.

As a result, the multi-stage steel pipe spacer according to the present invention can be easily and accurately placed in a desired position by the operator, can be mechanically welded, and can be mass-produced, when the steel pipe is transported and inserted into the ground drilling hole. In this case, the semi-cylindrical member can be prevented from falling off from the steel pipe.

1 to 3 illustrate a process of mounting a spacer for a multi-stage steel pipe according to the present invention to a multi-stage steel pipe, FIG. 1 is an exploded perspective view, and FIG. 2 is a state in which a pair of semi-cylindrical members are coupled to the steel pipe. 3 is a state in which the grip bending portion of the cylindrical member is fitted to the cap ring, and the cap ring is welded to the steel pipe.
4 is a perspective view showing a semi-cylindrical member.
5 is a perspective view of the upper capping;

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

1 to 3, the multi-stage steel pipe spacer according to the present invention, the upper grip bent portion 11 and the lower grip bent portion (11) at the top and bottom of the semi-cylindrical member 10, the middle portion of which is convex outwardly ( 12) are each formed, and two semi-cylindrical members 10 form a pair so that a pair of semi-cylindrical members 10 are disposed on the steel pipe 50 to face each other, so as to be semi-cylindrical to the side of the steel pipe 50. The upper cap ring 11 is coupled to the upper grip bent portion 11 and the lower grip bent portion 12 of the member 10, the upper cap ring to be disposed between the upper cap ring 20 and the steel pipe 50 of the steel material fitted to the steel pipe 50 Lower cap ring 30 so that 50 covers upper grip bending portion 11 of semi-cylindrical member 10 and is disposed between lower cap ring 30 of steel material and steel tube 50 fitted in steel tube 50. ) Cover the lower grip bending portion 12 of the semi-cylindrical member 10, the upper cap ring 20 and the lower cap ring 30 is a steel pipe 50, respectively It is welded.

Referring to FIG. 4, the semi-cylindrical member 10 is formed by injection molding a plastic material, the middle portion of which is formed to be convex outward, and four holes 15 are formed, and between the four holes 15. An inlet-shaped grating 16 is formed, and an inlet-shaped reinforcing bar 17 is integrally formed on the inner surface of the grating 16, and grip bending portions 11 and 12 are integrally formed at the top and the bottom thereof, respectively. Is formed.

Referring to FIG. 5, the upper cap ring 20 has a curved portion 22 formed inwardly curved at an upper end of a ring-shaped portion 21 formed of a steel material, and is bent to a steel pipe 50 (see FIG. 3). 22 is welded to the steel pipe.

The lower capping 30 has the same configuration as the upper capping.

The multi-stage steel pipe spacer according to the present invention configured as described above is fixed to the position desired by the operator because the upper grip bending part 11 and the lower grip bending part 12 of the semi-cylindrical member 10 are fixed to the side of the steel pipe. An upper cap ring 20 and a lower cap ring 30 for positioning the cylindrical member 10 easily and accurately and fixing the upper grip bending portion 11 and the lower grip bending portion 12 of the semi-cylindrical member 10, respectively. Can be mechanically welded to the steel pipe 50 (as shown in FIG. 3, a weld 41 is formed between the upper cap ring 20 and the steel pipe 50, and the lower cap ring 30 and the steel pipe ( 50 is formed between the welds 42), mass production is possible, and when the steel pipe is transported and inserted into the ground drilling hole, the semi-cylindrical member 10 can be prevented from falling off from the steel pipe 50. .

10 semi-cylindrical member 11 upper grip bending portion
12: lower grip bending portion 20: upper cap ring
30: lower capping 50: steel pipe

Claims (3)

The upper grip bent part 11 and the lower grip bent part 12 are formed at the upper and lower ends of the semi-cylindrical member 10 having the middle portion convex outward, and two semi-cylindrical members 10 are formed in pairs. Thus, the upper grip bending portion 11 and the lower grip bending portion (11) of the semi-cylindrical member 10 toward the side of the steel pipe 50 so that the pair of semi-cylindrical members 10 are disposed in the steel pipe 50 to face each other. 12 is coupled, the semi-cylindrical member 10 is formed between the four holes 15 and the four holes 15 in the form of a shovel between the four holes 15, up and down and left and right, An inlet-shaped reinforcement bar 17 is integrally formed on the inner side, and the upper cap ring 50 fitted to the steel pipe 50 covers the upper grip bent portion 11 of the semi-cylindrical member 10 and the steel pipe 50 The upper cap ring 20 and the lower cap ring 30 are applied to the steel pipe 50, respectively, with the lower cap ring 30 fitted in the upper cover covering the lower grip bending portion 12 of the semi-cylindrical member 10. Spacer for a steel pipe characterized in that the multi-stage.
delete The method of claim 1,
The upper cap ring 20 is formed with a curved portion 22 inwardly curved at the upper end of the ring-shaped portion 21 formed of a steel material, the curved portion 22 which is attached to the steel pipe 50 is welded to the steel pipe Multistage steel pipe spacers.

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