KR20180012330A - Earthquake-proof stiffening member for seamed pipe - Google Patents

Abstract

An earthquake-proof stiffening member for a seamed pipe is disclosed. The earthquake-proof stiffening member for a seamed pipe according to the present invention, which reinforces a seam (1′) of the seamed pipe (1) to prevent the seamed pipe (1) from breaking when an earthquake occurs, comprises: a restraining wire (10) having a fastening means (100) for wrapping the circumference of the seamed pipe (1) with both ends thereof fastened to each other; and a first soil receiver (12) coupled to the restraining wire (10), wherein a first soil receiver (122) having a concave first sinking surface (120) and a second soil receiver (126) having a second sinking surface (124) corresponding to the first sinking surface (120) of the first soil receiver (122) are alternately arranged, and the first and second sinking surfaces (120, 124) are inclined at an oblique angle with respect to a longitudinal direction of the restraining wire (10). When the seamed pipe is buried, buried soil is accommodated in the first and second sinking surfaces (120, 124), and then the seam (1′), which is a reinforced portion of the seamed pipe (1), is moved as long as a moving distance of the soil when the soil is moved by the earthquake, so the seam (1′) is prevented from breaking.

Description

Earthquake-proof stiffening member for seamed pipe

The present invention relates to a joint pipe reinforcement, and more particularly, to an articulated joint pipe which can provide a proper frictional force to a joint pipe to prevent a gap from being formed at a connection portion of the joint pipe even when a large amount of earth movement occurs, To a reinforcing material.

In the method of connecting steel pipes (pipes) installed in water supply and sewerage, fire fighting, gas, electricity, communication and various industrial plants, the end portions of the pipes are welded to each other or the gasket is inserted between the flanges A hole is formed in the flange and the bolt is fitted to the nut or both side ends of the coupling body are provided with the airtight portion and the wedge-shaped ring-shaped packing is wedged so as to be hermetically sealed using the dresser coupling A dresser type pipe joint method is mainly used.

On the other hand, recent earthquakes have frequently occurred in many parts of the world, causing damage to many lives and property. Small earthquakes are frequently occurring in Korea, which has been considered safe for earthquakes so far. And to make seismic design. However, since most of the pipe joint structures so far have no consideration of earthquakes, it is difficult to predict the damage if a stronger earthquake occurs in our country so far. In the future, A seismic pipe joint structure or method that can withstand even a constant-strength earthquake is required.

Korean Utility Model Registration No. 20-0213625 discloses a joint for seismic drainage piping. According to the above-mentioned registration utility model, a joint pipe having a pipe fitting portion at both ends so as to fit the pipe and having a cylindrical shape and a bolt fixing base for supporting the bolt are formed at the entrance edge of the joint pipe, A sealing groove and an anti-vibration groove are formed, and a seal consisting of a sealing portion, a protrusion and a bent portion is fitted so as to fit into the sealing groove and the anti-vibration groove. In addition, a plurality of bolt fastening holes are formed on the outer circumferential edge so as to be able to engage with the coupling pipe, and a flange having a guide formed on the outer circumferential edge to prevent the bolt from being detached when bolted. And a packing deformation preventing means mounted on an edge of a through hole of the flange so as to prevent the packing from being squeezed and plastically deformed in one direction by the load of the pipe, so that the packing can withstand vibration or shock, Thereby preventing water leakage.

Korean Patent Registration No. 10-1341838 discloses a piping joint having an anti-vibration property. The pipe joint device of the above patent is characterized in that flanges are formed at both ends of the pipe joint and each of the pipe joints is formed with one to four serrated grooves having a cross section of a right angled trapezoidal shape along the outer peripheral surface of the flange, Like projections are formed to be engaged with the serration grooves along the inner circumferential surface and are fastened to the serrated grooves formed in the flange portions of the tubes at joints where the tubes are connected to each other, And a plurality of helical portions corresponding to the inner circumferential surface and the outer circumferential surface of the distal end portion are formed so as to be threadedly engaged with each other at the time of fastening and fastened in a state of wrapping the outer circumferential surface of the elastic packing Wherein when the coupling is engaged, the inner ends of the coupling are fastened so as to be in contact with the side surfaces of the flange formed on the pipe, Even if the pipes are subjected to bending, bending, torsional load or pressure, it is possible to absorb the water and gas flowing through the pipe without damaging the joint part of the pipe. To the outside.

The conventional technique as described above absorbs an external shock or vibration due to an earthquake or the like when a bending, a bending, a torsional load, or a pressure is applied to various pipes such as water supply and drainage, fire protection and gas, So that the original state can be maintained as it is.

However, the reason for the actual damage of the pipe is due to the occurrence of the gap at the joint portion due to the difference in the force between the front end and the rear end of the joint pipe when the soil is vibrated and moved and the force is applied to the pipe. There is a problem that it is not enough to prevent the gap in the pipe joint even if the conventional techniques as described above are applied.

The present invention has been developed in order to overcome the above-mentioned problems, and it is an object of the present invention to provide a method and a device for recovering the earthquake of the present invention by winding a reinforcing material, When the earth's soil is vibrated and moved, when the force is applied to the pipeline, the connection part moves along the moving direction of the soil to prevent the widening of the gap even if there is a difference in the force between the front end and the rear end of the joint pipe. Thereby providing a reinforcing material.

The seismic joint pipe reinforcement according to the present invention is a seismic joint pipe reinforcement reinforcing the seam 1 'of the joint pipe 1 in order to prevent the seam pipe 1 from being opened when an earthquake occurs,

A restraining wire (10) having a fastening means (100) for fastening the both ends of the joint pipe (1) to each other,

A first soil receptacle 122 having a concave first sinking surface 120 coupled to the constraining wire 10 and a second sinking surface 124 symmetrical with respect to the sinking surface 120 of the first gravel receptacle And the second concave surface 124 and the second concave surface 124 are inclined obliquely with respect to the longitudinal direction of the restraining wire 10. The first and second concave surfaces 120 and 124 are alternately arranged, 12)

The gravel embedded in the joint pipe 1 is accommodated in the first recessed surface 120 and the second recessed surface 124 so that the seams 1 'Portion is moved along the distance corresponding to the amount of movement of the gravel to prevent widening of the joint 1'.

Further, the fastening means (100)

A cylindrical water tightening portion 100A which is fastened to one end of the restraining wire 10 and has a diameter larger than the thickness of the restraining wire 10,

And a female body part 100B into which the male fastening part 100A is slidably inserted by fixing the male fastening part 100A.

In the seismic joint pipe reinforcement according to the present invention, when the joint pipe is buried in the underground, a stiffener is installed at the joint part of the joint pipe, and when the earth is poured, the earth is filled in the earth- And the gravel receptors are arranged alternately in different directions to prevent gaps from occurring at the connection part of the gutter tube even if the gravel movements occur in any direction when an earthquake occurs.

1 is a perspective view illustrating a structure of a seismic resistant joint pipe reinforcement according to an embodiment of the present invention;
FIGS. 2 and 3 are views showing the structure of the fastening means 100 provided on the restraining wire 10, and FIGS.
Fig. 4 is a view of the seam joint pipe reinforcement of Fig. 1 viewed from the pipe section side, Fig.
Fig. 5 is a view showing the seam joint pipe reinforcement of Fig. 1 viewed from the upper side of the pipe,
6 is a perspective view showing the structure of a seismic-resistant pipe joint reinforcement according to another embodiment of the present invention, and Fig.
FIGS. 7 to 9 are views of a main angle capturing the seismic joint pipe reinforcement of FIG. 1, after three-dimensional drawing, which characterizes the features of the present invention. FIG.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to the preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings.

FIG. 1 is a perspective view showing the structure of a seismic resistant joint reinforcement according to an embodiment of the present invention. Referring to FIG. 1, a seismic resistant joint pipe reinforcement according to the present invention is a reinforcing material for reinforcing the joint 1 'of the joint pipe 1 to prevent the joint pipe 1 from being opened when an earthquake occurs,

A restraining wire (10) having a fastening means (100) for fastening the both ends of the joint pipe (1) to each other,

A first soil receptacle 122 having a concave first sinking surface 120 coupled to the constraining wire 10 and a second sinking surface 124 symmetrical with respect to the sinking surface 120 of the first gravel receptacle And the second concave surface 124 and the second concave surface 124 are inclined obliquely with respect to the longitudinal direction of the restraining wire 10. The first and second concave surfaces 120 and 124 are alternately arranged, 12)

The gravel embedded in the joint pipe 1 is accommodated in the first recessed surface 120 and the second recessed surface 124 so that the seams 1 ') Portion is moved as much as it corresponds to the movement amount of the gravel to prevent the spreading of the joint 1'.

As shown in FIG. 1, a second soil acceptor 126 having a second sinking surface 124 symmetrical with respect to a sinking surface 120 of the first earthing receptacle is alternately arranged, And the second concave surface 124 are inclined obliquely with respect to the longitudinal direction of the restraining wire 10, when the movement of the earth and sand occurs due to the earthquake occurrence, , The resistance of the joint (1 ') portion increases in either direction with respect to the longitudinal direction of the joint (1').

FIG. 2 and FIG. 3 show the structure of the fastening means 100 provided on the restraining wire 10. Referring to Figures 2 and 3, the fastening means 100 comprises:

A cylindrical water tightening part 100A having a diameter larger than the thickness of the restraining wire 10 which is fastened to one end of the restraining wire 10 and the water tightening part 100A, And a female body part 100B into which the female body 100A is slidably inserted.

The arm body coupling part 100B is provided with a first arm body coupling part 130, a second rock body coupling part 132 and a third rock body coupling part 134 which are continuously formed at different positions in the longitudinal direction, So that it can be selectively fastened in accordance with the diameter.

With reference to FIG. 4, the action and effect of the seismic resistant pipe reinforcement according to the present invention will be described. When the joint pipe 1 is buried, the jointing wire 10 of the reinforcing material is wound around the seam 1 'of the joint pipe 1 connected to the building and the earth pipe is poured to fill the joint pipe 1 .

The restraining wire 10 is coupled to a soil acceptor 12 which is arranged such that the first and second soil acceptors 122 and 126 are alternately arranged. The first gravel receptacle 122 has a first recessed surface 120 and the second gravel receptacle 126 has a second recessed surface 124 opposite the recessed surface 120 of the first gravel receptacle, Respectively.

6 is a perspective view illustrating a structure of a seismic resistant pipe reinforcement according to another embodiment of the present invention. 6, the seismic resistant joint reinforcement according to the present invention is a reinforcement for reinforcing the seam 5 'of the joint pipe 5 to prevent the joint pipe 1 from being opened when an earthquake occurs,

A pair of restraint wires (50A, 50B) having a pair of fastening means (not shown) both ends of which are wrapped around the joint pipe (5)

A first soil acceptor 522 having a concave first sinking surface 520 coupled to the constraining wire 50A and a second sinker 522 coupled to the constraining wire 50A, And a second soil acceptor (526) having a second concave surface (524) in the opposite direction to the first surface (524)

When the gravels 5 are buried, the gravels are accommodated in the first and second recessed surfaces 520 and 524 so that when the gravels are moved due to the earthquake, the seams 5 'Portion is moved along as much as the amount of movement of the gravels so as to prevent the spreading of the seam 5'.

This embodiment is different from the embodiment described with reference to Fig. 1, and thus requires a longer installation time. However, the effect of preventing the slipping of the slurry when the slurry moves is somewhat less than the embodiment of Fig. 1 Dominate.

FIGS. 7 to 9 show a screen capturing a main angle which well represents the characteristics of the present invention after three-dimensional drawing of the seismic joint pipe reinforcement of FIG. 1. FIG.

The function and effect of the seismic resistant pipe reinforcement according to the present invention will be described below.

Generally, when this earthquake occurs, the movement of the soil is partially caused by the motion of the crust, and the amount of the earth moving depends on the position of the pipe. In addition, because the density of the soil is mixed with the light part, the pressure and the degree of movement of the soil are different in the high density part of the soil. Therefore, in general, a cylindrical pipe may slip through the slurry when the slurry flows, but the pressure may be applied to the pipe.

However, the seismic resistant joint pipe reinforcement according to the present invention as described above is provided with an appropriate frictional force to the joint pipe 1, so that even when the earth movement is caused to some extent, the joint 1 ' So that even if an earthquake occurs, the joint 1 'moves along the movement of the gravel-like material. Therefore, as compared with the movement of the pipe portion having a relatively large area when the movement of the gravel-like earth caused by the earthquake occurs as in the prior art, the seam opening can be improved by drastically reducing the seam opening phenomenon caused by the small movement of the seam.

1: Joint pipe 1 ': Joint
10:
100: fastening means
12: Tosa Receptor
120: first depressed surface 122: first earth receptor
124: second depressed surface 126: second toughening receptacle
100A: Water tightening part 100B:
130: First rocking body
132: second rock solid body
134: Third rock solid body

Claims (2)

A seismic reinforcing steel pipe reinforcement for reinforcing a joint (1 ') of a joint pipe (1) in order to prevent the joint pipe (1) from being opened when an earthquake occurs,
A restraining wire (10) having a fastening means (100) for fastening the both ends of the joint pipe (1) to each other; And
A first soil receptacle 122 having a concave first sinking surface 120 coupled to the constraining wire 10 and a second sinking surface 124 symmetrical with respect to the sinking surface 120 of the first gravel receptacle And the second concave surface 124 and the second concave surface 124 are inclined obliquely with respect to the longitudinal direction of the restraining wire 10. The first and second concave surfaces 120 and 124 are alternately arranged, 12)
The gravel embedded in the joint pipe 1 is accommodated in the first recessed surface 120 and the second recessed surface 124 so that the seams 1 'Portion of the seam 1' is moved in accordance with the amount of movement of the gravel so as to prevent the seam 1 'from spreading. 2. The apparatus according to claim 1, wherein the fastening means (100)
A cylindrical water tightening portion 100A having a diameter larger than the thickness of the restraining wire 10 which is fastened to one end of the restraining wire 10; And
And a female body part (100B) into which the male fastening part (100A) is slidably inserted by fixing the male fastening part (100A).

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