KR20120000885A - Geotextile tube structure - Google Patents

Abstract

PURPOSE: A tube structure for construction is provided to form a drainage space by reducing the inner diameter of a part of a tube. CONSTITUTION: A tube structure(1) for construction comprises tubes(10) and space formation units(30). The tubes are filled with filler and are installed around a drainage area. The space formation units are formed in the tubes through external space formation units(50) or internal space formation units and form drainage spaces.

Description

Civil construction tube structure {Geotextile Tube Structure}

The present invention relates to a civil engineering tube structure that is installed in the area where the incision or drainage is required, and more particularly, large-scale accidents such as ground erosion, incision depression or rockfall due to poor drainage due to the construction of the tube structure in the drainage area It is possible to prevent in advance, while minimizing the structure change of the existing tube while the construction of the tube structure relates to a civil construction tube structure.

In general, geotextile is a fiber, a polymer material used in the environment of sand, soil, gravel, etc. is known as a product closely related to the construction technology of civil engineering.

For example, geotextile tubes using geotextiles, that is, geotextile tubes, can be referred to as fill structures filled with dredged soil such as soil, sand, gravel, or other filling materials. It is widely used in civil engineering (construction) construction to protect shore banks, lakes, rivers, sea shores, or reinforce soft grounds.

In particular, the tube structure using such a civil construction tube may be built in the incision or drainage to serve as a safety wall.

By the way, such a known civil construction tube, the filling material such as sand, soil, gravel into the tube through the inlet, and the water is injected into the filling material is drained through the tube, the filling material remains only the filler It is provided as a structure for filling.

On the other hand, Figure 1 shows a conventional tube structure 100 installed in the drainage area, such as the existing incision (C) or drainage.

That is, as shown in Figure 1, as the three unit tubes 110 are laminated construction in the incision (C), such a structured tube structure 100 is the ground anxiety of the incision or cut inclined surface not shown in the drawings Even if a rockfall occurs, it acts as a safety barrier to prevent the impact on adjacent roads or residential areas.

However, as shown in FIG. 1, the tube structure 100 constructed in the existing drainage area such as the incision C may have a high water drainage through the drain pipe P installed in the incision. Since it is not possible to build a structure, water is accumulated in the space ('A' portion of Figure 1) between the tube 110 adjacent to the incision (C) and the like.

Therefore, such non-drained decayed water W causes erosion or depression of the ground while being accumulated for a long time, and in particular, weakens the ground of the lower portion of the incision, causing the incline to fall down, resulting in falling rocks and the like. Will lead to a large accident.

However, in the conventional tube structure 100, no drainage pipes or drainage spaces are formed, and a gap is formed between the tubes of the tube structure 100 that are constructed with substantially several tens of m in length and approximately several m in diameter (width). There was also a difficult problem.

Accordingly, the applicant of the present invention proposes a tube structure near a drainage area such as an incision or a drainage, while facilitating the formation of a drainage space through a tube of a connecting pipe connected to the drainage pipe.

The present invention has been proposed in order to solve the conventional problems as described above, the object of the aspect is to facilitate the passage of the pipe associated with the drainage pipe, such as incision or drainage pipe, or to form a drainage space between the tubes after construction of the structure By doing so, it is possible to prevent large-scale accidents such as ground erosion, incision depression or rockfall on the slope due to poor drainage in the drainage area, while minimizing the structural change of the existing tube. It is to provide a tube structure.

As a technical aspect for achieving the above object, the present invention, the filling material is filled in the tube; And,

A space forming portion provided to form a pipe passage or a drainage space in the tube;

It provides a civil construction tube structure comprising a.

Preferably, the tube is disposed adjacent to the drainage area, the space forming portion may be formed through the tube outer space forming means or the tube inner space forming means.

More preferably, the tube outer space forming means, the tube tightening member is installed in the variable position in the tube configured to tighten the tube to provide a pipe passing space or drainage space outside the tube; And,

Fastening member for fixing the tube fastening member;

As shown in FIG.

More preferably, both ends of the tightening member further includes a curved or bent end provided to prevent tube breakage.

Preferably, the tube inner space forming means may be provided including a pipe passing tube body that is coupled to the inside of the tube and the pipe passes through.

More preferably, the pipe passing tube body, the pipe passing through the pipe; And,

A tube connection part connected to the pipe passage part to be attached to the tube;

As shown in FIG.

According to the civil engineering tube structure of the present invention, it is easy to pass the tube of the pipe connected to the drainage pipe, such as the incision or drainage, so that the existing drained water (drainage material) tube and the drainage pipe of the incision or drainage It is to prevent the occurrence of large-scale accidents such as ground erosion, incision depression or rockfall that occur while standing between.

In particular, since the present invention facilitates the introduction of the tube structure of the connecting pipe associated with the incision or drainage pipe simply before and after the tube structure construction, the construction of the tube structure is as easy as that.

In addition, the present invention provides several excellent effects, such as allowing the inner diameter of a portion of the constructed tube to be reduced, allowing the drainage space to be formed, and also facilitating the drainage through the tube without passing through a separate pipe.

1 is a block diagram showing a tube structure for civil construction provided with geotextiles constructed around a conventional drainage,
Figure 2 is a block diagram showing a first embodiment of a civil engineering tube structure according to the present invention,
3 is a perspective view showing a tube outer space forming means according to the present invention,
4 is a configuration diagram showing a state of construction of the tube structure for civil engineering of the present invention of Figures 2 and 3,
5 is a side view of FIG.
Figure 6 is a block diagram showing a second embodiment of a civil engineering tube structure according to the present invention,
7 is a perspective view of FIG. 6,
8 is a perspective view showing a tube inner space forming means according to the present invention.

Hereinafter, a preferred embodiment of the present invention according to the accompanying drawings.

First, Figures 1 to 5 show a civil engineering tube structure (hereinafter referred to as 'tube structure') of the first embodiment, characterized in that the tube outer space forming means 50 according to the present invention, Figure 6 to 8 show the tube structure of the second embodiment, characterized by the tube inner space forming means 70 according to the invention.

That is, as shown in Figures 1 and 6, the tube structure 1 of the present invention, such that the filling material 12 is largely filled therein and the tube is constructed around the drainage area, such as the incision (C) or drainage basin 10 and a space forming portion 30 formed in the tube to enable passage of the pipe associated with the drainage area, or to form a drainage space on its own.

Therefore, the tube structure 1 of the present invention is to connect the pipe (P ') associated with the drainage pipe (P) disposed in the drainage area, such as the incision (C) or the drainage reservoir to the outer space or the interior of the tube structure. Since it allows to pass through, or to form a drainage space, it is to prevent large accidents such as ground erosion or indentation slope indentation or rockfall due to the existing drainage failure described in FIG.

In particular, the present invention enables the passage of the connecting pipe P 'to a considerable size of the tube 10 of about tens of meters in length and height of about 3 m or provides a drainage space in the outer space 30 by itself. Therefore, the construction of the overall tube structure is also facilitated.

That is, the structure change of the existing tube is not large.

At this time, the tube 10 of the tube structure 1 of the present invention is to be provided as a tube which is constructed adjacent to the drainage area such as at least the cutout C or the drainage in which the drain pipe P is located.

On the other hand, the space forming portion 30 provided in the tube 10 of the present invention, as will be described in detail below, the connecting pipe (P) associated with the pipe (P) located in the drainage region, such as the incision (C) Tube outer space forming means (50) to allow passage of ') or to form the drainage space itself, and tube inner space forming means (70) to allow passage of the associated pipe (P') through the tube. It can be implemented through).

For example, FIGS. 2 to 5 show a tube structure 1 including the tube outer space forming means 50 of the present invention, and FIGS. 6 to 8 show a tube including the tube inner space forming means 70. The structure 1 is shown.

Of course, the pipe space forming unit 30 is provided on the outside or the inside of the tube according to the tube outer or inner space forming means (50, 70).

Therefore, the following describes the tube structure 1 of the first and second embodiments of the present invention based on the tube outer and inner space forming means 50 and 70 of the present invention.

First, as shown in FIGS. 3 to 5, the tube outer space forming means 50 of the tube structure 1 of the present invention is provided in the tube 10 so that the position can be adjusted and the tube outer space is tightened. The tube fastening member 52 provided to form the space forming unit 30 and the tube fastening member may be composed of a fastening member 54 for fixing the fastening member so as to fix the tube in an enclosed state.

At this time, the material of the tightening member 52 may be provided as a resin, such as plastic or leather, or a cotton, fabric (non-woven fabric, etc.) having a rigid structure.

However, when the inner diameter of the tightening member 52 is fixed to a desired position of the tube 10 via the fastening member 54 as shown in FIGS. 4 and 5, the tightening member 12 is filled even when the filling material 12 is filled therein. The tube inner diameter 10 'of the side becomes much smaller than the inner diameter of the normal tube 10 as shown in FIG.

At this time, preferably, the fastening member 52 of the present invention passes only the entire tube through which the filling material is filled in the tube, and after fixing with the fastening member 54, when the filling material 12 is filled through the inlet 14, 4 and 5, the space forming portion 30, that is, the space is formed in the portion 10 ′ in which the inner diameter of the constructed tube is narrowed, and through this, as shown in FIG. 2, drainage of the cutout C and the like. It is possible to pass through the associated pipe (P ') associated with the local drain pipe (P).

Of course, the inner diameter of the tightening member, ie, the portion 10 ′ installed in the tube and narrowing the inner diameter of the tube may be narrower or wider according to the height at the ground of the pipe.

In addition, since the fastening member 52 of the tube outer space forming means 50 of the present invention is in the form of a ring, as shown in FIGS. 4 and 5, the inner diameter of the tube 10 'is reduced by tightening the tube. The down space, that is, the space forming part 30 may be provided as a drainage space that enables drainage of the dead person W, as shown in FIG. 1.

As a result, the tightening member 52 of the tube outer space forming means 50 of the present invention forms a space on the tube outer edge, so that it is possible to implement the drainage itself by passing the pipe or by using a space (gap).

On the other hand, as shown in Figure 3 and 4, the fastening member 54, the bolt (B) and the fixed end (52a) integrally or attached to both ends of the tightening member 52 of the circular cross section It can be fastened and fixed through the nut (N) and the washer (W).

At this time, it is preferable to prevent the damage of the fastening member fixed end when the bolt and nut is fastened by interposing the reinforcing member 58 in the upper and lower sides, such a reinforcing member is provided in the same material as the tightening member can do.

In addition, in the case of the tube outer space forming means 50 of the present invention, since the inner diameter of the tube is narrowed even if the filling material is filled by installing the fastening member 52 in the tube before the tube is constructed, the fastening member 52 of the present invention is preferable. Filler inlet 14 is positioned to both sides are located.

As a result, the fastening member 52 of the present invention forms a space forming portion 30, that is, a pipe passing space or a drainage space on the outside of the tube, and also easily adjusts the position of the tube installation position of the fastening member, so that the drain pipe ( It is easy to adjust the construction position of P) or the connecting pipe (P '), and there is no problem to cope with using several kinds of diameters of the pipe (P'), and it is easy to maintain and maintain the pipe connection part. will be.

On the other hand, as shown in Figure 5, More preferably, both ends of the bent end (52a) or bent end of the fastening member 52 of the tube outer space forming means 50 is installed in the tube 10 of the present invention If it is formed, it will be preferable because it is concentrated on the edge of the tightening member as shown in Figure 5 to prevent damage to the tube.

Next, FIGS. 6 to 8 show a tube inner space forming unit 70 according to the present invention for forming the space forming unit 30 of the present invention.

That is, as shown in Figures 6 to 8, the tube inner space forming means 70 of the present invention, the coupling pipe (P ') is coupled to the inside of the tube 10 and associated with the drainage pipe (P). ) Includes a tube body 72 for pipe passing through the tube.

Accordingly, the tube inner space forming means 70 of the present invention forms a hole 10a in the tube 10 positioned before the tube is manufactured, and a tube body of a cylindrical body for pipe passing between the holes ( 72).

As a result, as shown in FIG. 6, in the tube structure 1 of the present invention, an associated pipe P 'associated with the drainage pipe P' such as an incision may be provided through the constructed tube 10.

That is, in the case of the tube inner space forming means 70 of the present invention of Figures 6 to 8 is provided in a fixed form when the tube is manufactured before the tube construction, the tube outer space forming means 50 shown in Figures 2 to 5 In contrast, when constructing the tube structure, the connecting pipe P 'is inserted into the tube body 72 for passing through the pipe in advance, and the filler 12 is filled in the tube through the inlet 14.

Therefore, although the tube fabrication structure is complicated in the case of the tube inner space forming means 70, it is easy to construct the tube.

At this time, specifically, as shown in FIG. 8, the pipe passage tube body 72 sews the tubular pipe passage portion 74 through which the connecting pipe P 'passes through the tube 10. It is attached to the tube connecting portion 76 of the circular plate shape to be attached by a sewing treatment or the like.

More preferably, as shown in FIG. 8, the tube connecting portion 74 is attached to the tube via a reinforcing member 78 made of leather, a thin plastic plate, or a multilayered surface or fabric.

At this time, preferably in the case of the tube inner space forming means 70 of the present invention, to facilitate the attachment of the tube body, the tube is long in the longitudinal direction, rather than being made of a single tube by unit pieces, such as sewing treatment tube, Sewing the unit pieces in the width direction (circumferential direction) to fabricate the tube will facilitate the attachment of the tube body 72 for tube passing.

Accordingly, the tube outer or inner space forming means 50, 70 of the present invention described so far, if the tightening member or the connecting pipe, and the like before putting the filler in the tube 10, pipe passing space or drainage Since the space forming portion 30 of the space is provided on the outside or inside of the tube, the drainage can be improved, and even if the tube structure is constructed adjacently such as an incision or a drainage basin, large formations such as ground erosion or inclined rockfall due to poor drainage It will prevent accidents from happening, especially during heavy rains.

1 .... Civil construction tube constructions 10 ... Tubes
12 .... Filler 30 .... Space Formation
50 .... Means for forming the outer space of the tube 52 .... Tube tightening member
52a .... Fastening member curved end 54 .... Fastening member
70 .... Means for forming the inner space of the tube 72 .... Tube through pipe
74 .... pipe passage 76 .... tube connection
P '.... drainage linkage pipe

Claims (6)

A tube 10 filled with a filler 12 therein; And,
A space forming portion 30 provided to form a pipe passing or drainage space in the tube;
Civil construction tube structure comprising a.
The method of claim 1,
The tube is disposed adjacent to the drainage area,
The space forming unit 30, the tube structure for civil construction, characterized in that formed through the tube outer space forming means 50 or the tube inner space forming means (70).
The method of claim 2,
The tube outer space forming means 50, the tube fastening member 52 is installed in the tube 10 in a variable position position configured to tighten the tube to provide a pipe passing space or drainage space outside the tube; And,
A fastening member 54 for fixing the tube fastening member;
Civil construction tube structure, characterized in that configured to include.
The method of claim 3,
Both ends of the tightening member 52 is a civil engineering tube structure, characterized in that it further comprises a curved or bent end (52a) provided to prevent tube breakage.
The method of claim 2,
The tube inner space forming means (70), the tube structure for civil construction, characterized in that it comprises a tube for passing through the tube body 72 is coupled to the inside of the tube (10).
The method of claim 5,
The pipe passage tube body 72 includes a pipe passage portion 74 through which the pipe passes; And,
A tube connection part 76 connected to attach the pipe passage part to a tube;
Civil construction tube structure, characterized in that configured to include.

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