KR102069668B1 - Steel pipe loop structure - Google Patents

Abstract

The present invention relates to a steel pipe loop structure. When a steel pipe and an adjacent steel pipe are coupled to each other, the angle of the steel pipe is coupled to the opening of the adjacent steel pipe, and the guide piece of the angle comes in surface-contact with the adjacent steel pipe and slides to be coupled to the adjacent steel pipe, thereby increasing a coupling force between the steel pipes to secure structural stability, and preventing movement between the steel pipes to allow firm installation.

Description

Steel pipe loop structure

The present invention relates to a steel pipe loop structure, and more particularly, when the steel pipe and the adjacent steel pipe are coupled to each other, the angle of the steel pipe is coupled to the opening of the neighboring steel pipe and the guide piece of the angle is in surface contact with the adjacent steel pipe The slide coupling is related to the steel pipe loop structure that can increase the binding force between the steel pipes, prevent flow, and minimize leakage.

In general, there is a structure construction method by attaching and non-attaching as a way to build underground structures in the ground. The attachment method is a method of constructing the underground structure after the part for construction of the underground structure is specified, removing all of the surrounding soil and the like to expose the portion to be constructed.

In addition, the non-adhesive method is to remove only the soil of the portion to be constructed of the underground structure and construct the underground structure, when sewage rock or underground roads, tunnel structures, etc. must be installed across existing roads and railways, construction It is mainly used when it is difficult to transfer obstacles according to the above, or when it is impossible to fix due to obstacle interference, vehicle communication obstacles, and the like.

Representative methods of the non-adhesive method may include a ham dog pull method and a steel pipe loop method. The hull propulsion method is to press-through horizontally in the direction of the arrival base from the forward base to the base for passing the housing 600mm around the ground through which the housing will pass, and then cross the ground from the reach of the opposite side of the housing to be towed After binding the PC steel wire to the manufactured ships in the field, it is towed to remove the earth and sand in the box, and to repeat the towing and excavation work such as to install the structure in the ground.

In addition, the steel pipe loop method is a method of forming a steel pipe loop structure by sequentially press-connecting the small steel pipe in the ground to form the structure, the construction of the structure by removing the earth and sand inside the steel pipe loop structure, the top or Lateral loads can be supported by temporary materials such as lateral support beams and temporary columns.

As a prior art of a steel pipe loop structure applied to the steel pipe loop method, a steel pipe loop structure and a construction method of the steel pipe loop structure have been disclosed in Korean Patent Laid-Open Publication No. 10-2006-0097891.

The previously disclosed patent is a steel pipe loop structure applied to a steel pipe loop method for constructing a structure in the ground, and is sequentially press-fitted according to the outline of the structure to be installed after installing work tools on both sides of the road or obstacle to be traversed. Horizontal grooves are formed on each side in a horizontal direction, and inside the horizontal grooves, a plurality of supports are installed on the upper and lower sides with a predetermined interval to prevent the horizontal grooves from being distorted according to the load. On the other side of the groove is a configuration in which a plurality of steel pipes installed with the corresponding horizontal grooves are laterally coupled in a mutually aligned state.

However, the published patent has a problem in that the steel pipe inserted into the ground and adjacent steel pipes are defective due to the line contact defect, so that the contact area is narrow, and the coupling force is insufficient, and the flow occurs between the steel pipes, resulting in poor structural stability.

In addition, when the steel pipe is press-fitted, the steel pipe may be crushed or twisted by the pressure generated by the ground. In this case, the welded portion of the support is separated, thereby making it difficult to construct a solid construction.

In addition, since the steel pipes are not in close contact with each other by line contact, there is a problem that inflow of ground water or the like occurs into the steel pipe loop structure.

In addition, since the angle portion located inside the adjacent steel pipe after inserting all the steel pipes should be cut and welded to the neighboring steel pipes, there is a problem in that construction time and construction cost increase.

Republic of Korea Patent Publication No. 10-2006-0097891

The present invention has been made to solve the problems as described above, by the angle of the surface contact of the slide in the adjacent steel pipe is coupled by sliding coupling between the steel pipe is increased, the flow is prevented, the inflow of groundwater can be prevented To provide a steel pipe loop structure.

In addition, the present invention can be provided with a drain pipe, to provide a steel pipe loop structure that can completely block the inflow of ground water and the like.

In addition, the present invention is to provide a steel pipe loop structure in which the angle of the inner surface of the adjacent steel pipe is in contact with the slide, the angle of the cutting operation is unnecessary, the coupling force is increased, the construction cost and construction time is saved.

Steel pipe loop structure of the present invention, after installing the work tool on both sides of the road or obstacle to be traversed, the steel pipe loop structure to sequentially press-install the steel pipes in the ground along the outline of the structure to be installed, the steel pipe is a steel pipe body; An opening cut in a length direction on one side of the steel pipe body; And an angle fixed to the steel pipe body of the other side of the opening and slidingly coupled to the opening of the adjacent steel pipe, wherein the angle comprises: a first angle that is surface-contacted to an upper side of the opening of the adjacent steel pipe; And a second angle that is surface-contacted to the lower side of the opening of the neighboring steel pipe.

The first angle and the second angle, the fixing piece is fixed to the outer surface of the steel pipe; And a first guide piece bent at one end of the fixing piece to be in close contact with an inner surface of the adjacent steel pipe.

The second guide piece is bent at the other end of the fixing piece so as to correspond to the first guide piece is in close contact with the outer surface of the adjacent steel pipe as a whole; may further include a.

A first reinforcing piece extending from one end of the fixing piece and fixed in contact with the steel pipe may be further included.

It may further include a second reinforcing piece extending from the other end of the fixing piece and fixed in contact with the steel pipe.

The first angle may further include a space securing piece that is bent from the end of the second reinforcing piece in the direction of the adjacent steel pipe to secure an installation space of the drain pipe.

It may further include a release prevention piece bent at the end portion of the secured space to prevent the separation of the drain pipe is installed in the installation space.

It may further include a plurality of supports installed on the inner surface of the steel pipe body inside the opening to prevent distortion of the steel pipe body.

A through hole penetrated through the steel pipe body between the first and second angles; And a reinforcing bar reinforcement to the steel pipe body through the through hole.

According to the present invention, the angle is contacted to the opening of the adjacent steel pipe by the surface contact and the slide coupling is increased, the coupling force between the steel pipe is increased, the flow is prevented, the inflow of ground water and the like can be prevented.

In addition, the present invention can be provided with a drain pipe, it is possible to completely block the inflow of ground water and the like.

In addition, according to the present invention, the angle of the inner surface of the adjacent steel pipe is in contact with the slide, the angle of cutting work is unnecessary, the coupling force is increased, the construction cost and construction time can be saved.

1 is a side configuration diagram of a steel pipe showing a steel pipe loop structure to which the present invention is applied
2 is a configuration diagram showing an angle of an example of a steel pipe loop structure to which the present invention is applied
3 is a configuration diagram showing another example of FIG.
4 is a configuration diagram showing still another example of FIG.
5 is a configuration diagram showing still another example of FIG.
6 is a configuration diagram showing still another example of FIG.
7 is a configuration diagram showing still another example of FIG.
8 is a configuration diagram showing another example of FIG.
9 is a configuration diagram showing still another example of FIG.
10 is a configuration diagram showing still another example of FIG.
11 is a state of use of the angle formed the first guide piece of the steel pipe loop structure to which the present invention is applied
12 is a use state diagram in which the drain pipe is installed at an angle at which the first guide piece of the steel pipe loop structure to which the present invention is applied.
Figure 13 is a state of use of the angle formed the first guide piece and the second guide piece of the steel pipe loop structure to which the present invention is applied
14 to 16 is a state of use of a state in which the angle formed with the first guide piece and the angle formed with the first guide piece and the second guide piece of the steel pipe loop structure to which the present invention is applied
Figure 17 is a side view of the drawn-in state of the steel pipes of the steel pipe loop structure to which the present invention is applied
18 to 19 is a view showing a state in which reinforcement is reinforced in steel pipes of the steel pipe loop structure to which the present invention is applied
20 to 21 is a construction process diagram of the steel pipe loop structure to which the present invention is applied

Hereinafter, some embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the reference numerals to the components of the drawings, the same components are to have the same reference numerals as much as possible even if displayed on different drawings. In addition, in describing the embodiments of the present invention, when it is determined that a detailed description of a related well-known configuration or function disturbs the understanding of the embodiment of the present invention, the detailed description thereof will be omitted.

In addition, in describing the components of the embodiment of the present invention, terms such as first, second, A, B, (a), and (b) may be used. These terms are only for distinguishing the components from other components, and the nature, order or order of the components are not limited by the terms. If a component is described as being "connected", "coupled" or "connected" to another component, that component may be directly connected or connected to that other component, but there may be another component between each component. May be “connected”, “coupled” or “connected”.

1 is a side configuration diagram of a steel pipe showing a steel pipe loop structure to which the present invention is applied.

Steel pipe loop structure 10 to which the present invention is applied is configured to sequentially press-install a plurality of steel pipes in the ground along the outline of the structure to be installed, it may include a steel pipe 100, a neighboring steel pipe 200. .

The steel pipe 100 is inserted into the ground, it may include a steel pipe body 110, the opening 120, the angle 130.

The opening 120 is a portion cut in the longitudinal direction on one side of the steel pipe body (110).

The angle 130 is fixed in a pair to the steel pipe body 110 of the other side of the opening 120 is slidingly coupled to the opening 220 of the adjacent steel pipe 200, the first angle 131, the first It may include two angles (132). The first angle 131 and the second angle 132 may be bent or formed by attaching a separate member by welding or the like.

The first angle 131 and the second angle 132 are in surface contact with the upper and lower sides of the opening 220 of the adjacent steel pipe 200, respectively, as shown in Figure 2, fixing pieces (131a) (132a) ) And first guide pieces 131b and 132b.

The fixing pieces 131a and 132a may be formed in a plate shape and fixed to the outer surface of the steel pipe body 110 of the steel pipe 100 by welding or the like.

The first guide pieces 131b and 132b are bent at one end of the fixing piece 131a and 132a, that is, at the end of the side facing toward the center of the steel pipe body 110 to form the neighboring steel pipe 200. The inner surface may be in close contact with the entire surface. In the first guide pieces 131b and 132b, separate members may be welded to the fixing pieces 131a and 132a.

The first guide pieces 131b and 132b which are closely coupled to the inner surface to be in surface contact with each other may significantly increase coupling force with neighboring steel pipes 200. This may ensure that the flow between the steel pipes 100 and 200 is prevented while the steel pipes 100 and 200 are press-fitted into the ground. In addition, it is possible to prevent the inflow of ground water flowing from the upper side between the steel pipe (100, 200). This may facilitate the insertion and other operations of the steel pipe (100, 200). In addition, after inserting all of the steel pipes 100 and 200, the operation may be completed only by welding the ends of the first guide pieces 131b and 132b to the adjacent steel pipes 200. This can prevent an increase in construction cost and construction period by cutting the guide piece in the prior art and welding the adjacent steel pipe.

In addition, as shown in FIG. 3, the second guide pieces 132c and 132c are bent or welded at the other end of the fixing pieces 131a and 132a to be in close contact with the outer surface of the adjacent steel pipe 200. Can be combined. The second guide pieces 132c and 132c closely coupled to the outer surface so as to be in surface contact with each other may also have a similar effect to the first guide pieces 131b and 132b.

In addition, as shown in Figure 4 to 5, and further extending from one end of the fixing piece (131a, 132a), and further comprises a first reinforcing piece (131d) (132d) fixed in contact with the steel pipe 100, The first reinforcing pieces 131d and 132d may be fixed to the steel pipe body 110 to reinforce the bonding strength of the first angle 131 and the second angle 132.

In addition, as shown in FIGS. 6 to 7, further includes second reinforcing pieces 131e and 132e extending from the other end of the fixing pieces 131a and 132a and fixed to contact the steel pipe 100. The second reinforcing pieces 131e and 132e may be fixed to the steel pipe body 110 to reinforce the bonding strength of the first angle 131 and the second angle 132.

Here, the second reinforcing pieces 131e and 132e may be formed like the first reinforcing pieces 131d and 132d or may be formed respectively.

8 to 9, the first angle 131 and the second angle 132 are bent in the direction of the adjacent steel pipe 200 at the end portions of the second reinforcing pieces 131e and 132e. It further includes a space securing piece (131f, 132f), the space between the space securing piece (131f) 132f and the second reinforcing piece (131e, 132e) to secure the installation space in which the drainage pipe 300 is installed can do.

Since the drain pipe 300 is installed or a space is secured without the drain pipe 300, it is possible to quickly and smoothly discharge the groundwater. This prevents the groundwater, etc. from stagnating in the recesses generated between the steel pipes 100 and 200 for a long time to prevent corrosion of the steel pipes 100 and 200, and at the same time prevent the inflow into the structure.

The drain pipe 300 may be applied to various examples. For example, rubber or plastic pipes, nonwovens, and net hoses (through which hoses are made of synthetic fibers and which can pass water) may be applied.

And, as shown in Figure 10, the separation prevention piece (131g) is bent at the end of the space securing piece (131f) can prevent the separation of the drain pipe 300 installed in the installation space.

In addition, a plurality of supports 140 may be further installed on the inner surface of the steel pipe body 110 inside the opening 120 to prevent the steel pipe body 110 from being crushed.

The steel pipes installed at the ends of the steel pipes may be omitted from the opening 120 or the angle 130.

In addition, further comprising a through hole 150 penetrated through the steel pipe body 110 between the first angle 131 and the second angle 132, and is reinforced to the steel pipe body 110 through the through hole 150 Reinforcement 160; may further include. Reinforcing bars 160 may be installed separately or connected to one of several steel pipes.

The following describes the construction process of the steel pipe loop structure of the present invention configured as described above.

First, to form a steel pipe body 110 through which the inside is penetrated according to a design drawing, and to form an opening 120 on one side of the steel pipe body 110, the opening 120 is one side of the steel pipe body 110 It is formed by cutting in the longitudinal direction.

Here, the opening 120 is formed at intervals in which the first angle 131 and the second angle 132 of the angle 130 described below are fixed to the steel pipe body 110, and the angle 130 is The steel pipe body 110 on the other side of the opening 120 may form a fixed steel pipe 100.

At this time, the angle 130 may fix the fixing pieces 131a and 132a of the first and second angles 131 and 132 to the outer surface of the steel pipe body 110, and the fixing pieces 131a and 132a. ), The first guide pieces 131b and 132b or the first guide pieces 131b and 132b and the second guide pieces 131c and 132c may be bent.

And the steel pipe body 110 so that the angle formed by bending the first guide piece 131b, 132b and the angle formed by bending the first guide piece 131b, 132b and the second guide piece 131c, 132c are mixed. It can also be fixed on the outside.

In addition, the steel pipe body 110 may be formed on the inner surface of the steel pipe 100 for welding and fixing the plurality of supports 140, the steel pipe 100, one end and the other side of the fixing piece (131a) (132a) At the end, the first reinforcing pieces 131d and 132d and the second reinforcing pieces 131e and 132e are extended and fixed to the steel pipe body 110 so that the bearing force is improved, so that the first angle 131 and the second angle ( 132 may be reinforced.

Here, the space securing piece 131f may be bent in the direction of the adjacent steel pipe 200 at the end of the first reinforcing piece 131d, and the separation preventing piece 131g is bent at the end of the space securing piece 131f. It may be formed.

In the state of transferring the steel pipe 100 formed by the above process to the construction site, work tools are installed on both sides of the road or obstacle to be traversed, and the steel pipes are sequentially press-fitted and installed in the ground along the outline of the structure to be installed. The structure 10 can be formed.

The steel pipe 100 may be installed by pushing the ground with a hydraulic pressure while excavating the ground with a device such as a screw auger, the angle 130 of the steel pipe 100 in the opening 220 of the adjacent steel pipe 200 is press-installed in the ground Sliding combined.

In this case, as shown in FIG. 11, the first angle 131 and the second angle 132 of the angle 130 are coupled to the opening 220 of the adjacent steel pipe 200 and at the same time, the first angle 131 and the first angle 131. The guide pieces 131b and 132b of the two angles 132 may be in surface contact with the inner surface of the steel pipe body 210 of the adjacent steel pipe 200 to be slidingly coupled.

Here, as shown in Figure 12, the first reinforcing piece (131d) formed at one end of the fixing piece (131a) of the first angle 131, the space securing piece (131f) is bent in the direction of the adjacent steel pipe 200 or The drainage prevention piece 131g is bent in the space securing piece 131f formed by bending the first reinforcing piece 131d and installed in the installation space between the space securing piece 131f and the leaving preventing piece 131g. Departure of the 300 can be prevented.

The drain pipe 300 is in close contact with the separation prevention piece (131g) is blocked contact with the neighboring steel pipe 200 due to the movement of the steel pipe 100, thereby preventing damage of the drain pipe 300, as well as groundwater It can block the inflow of influent, such as, can discharge the influent flows to the outside.

In addition, as shown in FIG. 13, angles 131 and 132 formed by bending first guide pieces 131b and 132b and second guide pieces 131c and 132c in the fixing pieces 131a and 132a are adjacent to each other. The inner surface of the steel pipe body 210 of the steel pipe 200 which is coupled to the opening 220 of one steel pipe 200 and the first guide pieces 131b and 132b and the second guide pieces 131c and 132c are adjacent to each other. Each surface contact with the outer surface may be slidingly coupled.

14 to 16, the first guide piece 131b is formed at an angle at which the first guide pieces 131b and 132b are bent on the fixing pieces 131a and 132a, or the fixing pieces 131a and 132a. 132b and the second guide pieces 131c and 132c may be combined with the steel pipe 100 by applying an angle formed by bending the steel pipe 100 to the neighboring steel pipe 200.

The space securing piece 131f may be bent in the direction of the adjacent steel pipe 200 at the end of the first reinforcing piece 131d extending from the fixing piece 131a of the first angle 131. It is possible to prevent the flow of the drain pipe 300 installed in the installation space between the space securing piece (131f) and the second reinforcing piece (131e) by bending the separation preventing piece (131g) at the end of the securing piece (131f). .

In addition, as shown in Figure 17, after the press-installed in the ground sequentially so that the steel pipe 100 is connected to the adjacent steel pipe 200 in the above process, the first and the inner surface of the adjacent steel pipe 200 in surface contact The first guide pieces 131b and 132b of the second angles 131 and 132 are surface-contacted or the inner and outer surfaces of the neighboring steel pipes 200 of the first and second angles 131 and 132. The first guide pieces 131b and 132b and the second guide pieces 131c and 132c are welded to each other by welding the inner surface of the steel pipe 200 adjacent to the first guide pieces 131b and 132b. Can be fixed.

In the above process, a plurality of steel pipes are press-installed in the ground, and the through-hole 150 passes through the steel pipe body 110 between the first angle 131 and the second angle 132, the through-hole 150 is The steel pipe body 110 may be penetrated at regular intervals or penetrated in the longitudinal direction.

Reinforcing bars 160 to the steel pipe body 110 in the longitudinal and horizontal direction through the through hole 150, the reinforcement 160 is as shown in Figs. 18 to 19, the reinforcement 160 is the steel pipe loop structure (10) It can be added to the entire steel pipe of), or can be placed only on the superposed steel pipe.

In addition, as shown in FIG. 20, the steel pipes are horizontally connected to each other by repeating the process of reinforcing the bars while pressing and installing the steel pipes to be connected to each other. It is possible to form a steel pipe loop structure (10) consisting of (10b).

As shown in FIG. 21, after digging and curing the steel pipes forming the ceiling portion 10a and the steel pipes forming the side wall portion 10b and curing the steel pipe loop structure 10, the bottom The foundation can be formed by pouring and curing concrete on the face. In addition, the ceiling portion 10a or the side wall portion 10b may be constructed prior to the ceiling portion 10a rather than the side wall portion 10b, or the side wall portion 10b may be constructed before the ceiling portion 10a. It may be.

The steel pipe loop structure 10 is connected to each steel pipe, it can be reinforced in the concrete while the concrete is placed and cured, so that the shape can be maintained without being deformed even under the load due to the pressure of the soil.

On the other hand, it was described that the steel pipe 100 is coupled to the neighboring steel pipe 200 in the state that the adjacent steel pipe 200 is press-installed in the ground, but the steel pipe 100 is press-installed in the ground The steel pipe 200 adjacent to the steel pipe 100 may be constructed to be coupled.

In the foregoing description, all elements constituting the embodiments of the present invention are described as being combined or operating in combination, but the present invention is not necessarily limited to the embodiments. That is, within the scope of the present invention, all of the components may be configured or operated by selectively combining one or more of them. In addition, the terms "comprise", "comprise" or "having" described above mean that the corresponding component may be inherent unless specifically stated otherwise, and thus excludes other components. It should be construed that it may further include other components instead. All terms, including technical and scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art unless otherwise defined. Terms used generally, such as terms defined in a dictionary, should be interpreted to coincide with the contextual meaning of the related art, and shall not be interpreted in an ideal or excessively formal sense unless explicitly defined in the present invention.

The above description is merely illustrative of the technical idea of the present invention, and those skilled in the art may make various modifications and changes without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are not intended to limit the technical idea of the present invention but to describe the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The protection scope of the present invention should be interpreted by the following claims, and all technical ideas within the scope equivalent thereto should be construed as being included in the scope of the present invention.

10: steel pipe loop structure 100: steel pipe
110: steel pipe body 120: opening
130: angle 131,131 ': first angle
132,132 ': 2nd angle 140: support
200: neighboring steel pipe

Claims (9)

After installing work tools on both sides of the road or obstacle to be traversed, a steel pipe loop structure that sequentially press-installs steel pipes in the ground along the outline of the structure to be installed,
The steel pipe is
Steel pipe body;
An opening cut in a length direction on one side of the steel pipe body; And
And an angle fixed to the steel pipe body of the other side of the opening and slidingly coupled to the opening of the adjacent steel pipe.
The angle is
A first angle which is surface-contacted to an upper side of an opening of the neighboring steel pipe; And
And a second angle which is surface-contacted to the lower side of the opening of the neighboring steel pipe .
The first angle and the second angle,
A fixing piece fixed to an outer surface of the steel pipe;
A first guide piece bent at one end of the fixing piece to be in close contact with an inner surface of the adjacent steel pipe; And
And a second reinforcing piece extending from the other end of the fixing piece and fixed in contact with the steel pipe.
The first angle is,
It is further formed to be bent in the direction of the adjacent steel pipe at the end of the second reinforcing piece to secure the installation space of the drain pipe;
And a drainage pipe installed in the installation space to guide drainage of the groundwater.
delete The method according to claim 1,
And a second guide piece bent at the other end of the fixing piece so as to correspond to the first guide piece, the second guide piece being in close contact with the outer surface of the neighboring steel pipe as a whole.
The method according to claim 1,
Steel pipe loop structure further comprises; a first reinforcing piece extending from one end of the fixing piece and fixed in contact with the steel pipe.
delete delete The method according to claim 1,
The steel pipe loop structure further comprises a release prevention piece bent at the end portion of the secured space to prevent the separation of the drain pipe is installed in the installation space.
The method according to claim 1,
And a plurality of supports installed on the inner surface of the steel pipe body inside the opening to prevent crushing of the steel pipe body. The method according to claim 1,
A through hole penetrated through the steel pipe body between the first and second angles; And
Steel pipe loop structure, characterized in that it further comprises; reinforcement is reinforced to the steel pipe body through the through hole.

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