KR101880038B1 - Perforated drain pipe culvert and construction method thereof - Google Patents

Abstract

The present invention relates to a perforated drain pipe culvert that is capable of preventing a perforated drain pipe from being damaged and further preventing drain holes formed on the perforated drain pipe from being clogged when the culvert is installed in the ground excavated, and to a construction method thereof. According to the present invention, the perforated drain pipe culvert, which is buried in the ground, includes: a perforated drain pipe having a plurality of drain holes formed thereon; and a first sheet adapted to surround the outer peripheral surface of the perforated drain pipe to prevent the plurality of drain holes from being clogged due to soil or sand on the ground or to absorb water from the ground to drain the absorbed water to the perforated drain pipe through the plurality of drain holes.

Description

BACKGROUND OF THE INVENTION Field of the Invention [0001] The present invention relates to a perforated pipe,

More particularly, the present invention relates to a method for improving the workability and transportability of a culvert, while preventing clogging of the drain hole formed in the culter tube due to soil or sand, and the like. And a construction method.

In general, it is necessary to stabilize the ground early in land reclamation, reclamation landfill and damp ground embedded with dredged soil. It is also necessary to stabilize the ground early, when converting rice fields into fields or converting mangroves to farmland. For reference, when the rice field is converted into the field, there is a lot of water in the soil and the problem of the drainage failure occurs because the soil is fine and the drainage is not good.

On the other hand, in order to stabilize the ground early, it is necessary to drain the surplus water of the ground (for example, to convert paddy field into a field or drain water when converting a reclaimed land or tidal flat to agricultural land) (Closed conduit, covered open channel) is installed and there is a way to drain.

In this method, a drainage culvert is installed on a drainage channel after excavating a drainage channel on a land using an excavator, and a method of installing a culvert by forming a drainage channel by mounting a culvert supply device on an excavator (Backhoe) have.

However, even if a plurality of drainage culverts are installed or buried by using the above-described method, there is a problem that the drainage hole of the drainage culter is clogged by the fine particles of the soil, so that the drainage culvert can not sufficiently exhibit drainage performance.

In particular, when a drainage culvert is installed by an excavator, rather than digging the soil by using a plowing tool, a tool such as a knife is used to make a gap in which the culvert can be installed in the soil, Which is difficult to install.

In addition, when the drainage channel is formed and the drainage culter is laid or buried, there is a risk that the surface of the culvert to be installed is damaged because the culvert and drainage are formed at the same time, and the drainage hole of the drainage culvert It has a problem that drainage on the ground or the ground can not be performed properly.

The present applicant has proposed the present invention in order to solve the above-mentioned problems. As a prior art document related thereto, Korean Utility Model Registration No. 20-0322969 (entitled "Groundwater Drainage Promotion Device, Registered Date: 2003.08.01.).

An object of the present invention is to provide a method of constructing a pultrusion culvert and a construction method thereof, which can prevent damage to a piercing tube and prevent clogging of the piercing hole formed in the piercing tube when the pier culvert is excavated at the same time .

Another object of the present invention is to provide a method of constructing a pier and a method of constructing the pier which can improve the workability and transportability of the pier of the pier embedded in the ground.

The problems to be solved by the present invention are not limited to the above-mentioned problems, and other matters not mentioned can be clearly understood by those skilled in the art from the following description.

The above object is achieved according to the present invention by providing a pillar-type culvert comprising a plurality of drainage holes formed in a ground, A first sheet provided to surround the periphery of the pipe; Wherein the first sheet prevents the drain hole from being clogged by soil or sand in the ground or absorbs moisture in the ground and drains to the hole through the drain hole, Or by piercing the culvert when the air is injected into the inside of the cylindrical tube, the cylindrical culvert is formed to be flatly compressed or expanded in a cylindrical shape.

The first sheet may be formed of a porous material capable of absorbing moisture so as to absorb water introduced from the drain hole or to filter soil or sand in the ground so that the drain hole is not blocked.

The pillar culvert includes a second sheet that surrounds the outer circumferential surface of the first sheet, and the second sheet prevents air from being introduced or discharged through the drain hole when the squeeze or inflate the pore tube .

The second sheet may be formed of a polyvinyl alcohol fiber.

The second sheet may be dissolved and naturally removed when it comes into contact with water after the pier culvert is buried.

According to another aspect of the present invention, there is provided a method of constructing a culvert pit, the method comprising: extracting air from the pit to compress the pit culvert; Placing or pressing the squeezed pipe tube culvert in the ground; And inflating the pillar culvert by injecting air into the pillar culvert installed or installed in the ground. The method comprising the steps of:

In the step of injecting the air, the air injected into the cylindrical pipe can be prevented from flowing out of the cylindrical pipe by the second sheet.

In the step of injecting the air, the expanded pipe tube culver can maintain a cylindrical state by the first sheet surrounding the outer circumferential surface of the pipe tube.

And a step of installing a screening filter including the blast furnace slag aggregate around the perforated pipe culver after the step of installing or installing the perforated pipe culvert in the ground ground.

The blast furnace slag aggregate of the screening filter may have a size larger than the drain hole.

According to the present invention, it is possible to prevent clogging of the drain hole formed in the pipe hole by the first sheet provided on the outer circumferential surface of the pipe hole, thereby improving drainage performance of the pipe hole culvert.

In addition, the method of the present invention can improve the transportability and the workability of a pillar culvert because the pillar culvert is transported and installed in a squeezed state. Furthermore, since the pier culver is installed in a compressed state, the pier culvert can be installed at the same time as the excavation of the ground, thereby reducing installation cost and time.

According to another aspect of the present invention, there is provided a method of manufacturing a culvert comprising the steps of: (a) preparing a culvert culvert, Can be prevented.

In addition, the method of the present invention for piercing pipes and the method of manufacturing the same eliminates the need to separately remove the air discharge preventing sheet after the pultrusion culvert is installed in the ground because the second sheet is dissolved and removed when the second sheet is in contact with water.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a cross-sectional view of a pillar culvert according to an embodiment of the present invention; FIG.
Fig. 2 is an exploded perspective view of the pillar culvert shown in Fig. 1. Fig.
3 is a longitudinal sectional view of the pipe tube culvert shown in Fig.
Fig. 4 is a view for explaining a modified example of the second sheet shown in Figs. 1 to 3. Fig.
FIG. 5 is a view for explaining a method of constructing a pillar culvert according to an embodiment of the present invention. Referring to FIG.
FIG. 6 is a view schematically showing the shape of a pillar culvert according to the method of constructing the pillar culvert shown in FIG.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings, which will be readily apparent to those skilled in the art to which the present invention pertains. The present invention may be embodied in many different forms and is not limited to the embodiments described herein.

The drawings are schematic and illustrate that they are not drawn to scale. The relative dimensions and ratios of the parts in the figures are shown exaggerated or reduced in size for clarity and convenience in the figures, and any dimensions are merely illustrative and not restrictive. And to the same structure, element or component appearing in more than one drawing, the same reference numerals are used to denote similar features.

The embodiments of the present invention specifically illustrate ideal embodiments of the present invention. As a result, various variations of the drawings are expected. Thus, the embodiment is not limited to any particular form of the depicted area, but includes modifications of the form, for example, by manufacture.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, referring to the accompanying drawings, a pier tube culter 100 according to an embodiment of the present invention and a construction method thereof will be described.

Fig. 1 is a cross-sectional view of a pillar culvert according to an embodiment of the present invention, Fig. 2 is an exploded perspective view of the pillar culvert shown in Fig. 1, Fig. 3 is a longitudinal sectional view of the pillar culvert shown in Fig. FIG. 5 is a view for explaining a method of constructing a pillar culvert according to an embodiment of the present invention, and FIG. 6 is a view for explaining a modification of the second sheet shown in FIG. FIG. 2 is a view schematically showing a shape of a pillar culvert according to a construction method of the present invention.

As shown in FIGS. 1 to 4, a pier tube culter 100 according to an embodiment of the present invention is installed or installed for drainage in the ground, and includes a plurality of drain holes 112 And a first sheet 120 that surrounds the outer circumferential surface of the tube 110.

The perforated pipe 110 is formed of a synthetic resin material such as plastic or the like and may be provided in the form of a pipe or a tube having a hollow interior.

The drainage hole 112 may be formed in the pipe 110 to drain groundwater or groundwater. A plurality of drain holes 112 may be formed through the entire surface or the entire length of the hole 110, and a plurality of holes may be formed at predetermined intervals along the circumferential direction and the longitudinal direction of the hole 110 .

Meanwhile, the first sheet 120 may be provided to surround the perforated pipe 110 by contacting the periphery of the perforated pipe 110.

At this time, the first sheet 120 may be formed of a porous material that can easily absorb moisture. Since the first sheet 120 is formed of a porous material having a plurality of holes, it is possible to filter the soil or sand in the ground so that the drain hole 112 of the pipe 110 is clogged with soil or sand in the ground. Can be prevented.

That is, the first sheet 120 not only functions as a filter for filtering soil or sand in the ground, but also absorbs moisture of the soil or sand in the ground so as to drain into the porous tube 110, The drainage performance of the pillar culter 100 according to the present invention can be further improved.

For reference, the first sheet 120 may be provided in the form of a material such as natural rubber or synthetic resin or a general sponge, but is not limited thereto. May also be used.

The thickness of the first sheet 120 is preferably thicker than the thickness of the pipe 110 to improve the drainage performance of the pipe 110 and to prevent the drainage hole 112 from being clogged. This is because as the first sheet 120 becomes thicker, the amount of water absorbed by the first sheet 120 increases, and at the same time, the time for the soil or sand in the ground to pass through the first sheet 120 becomes longer, The possibility of being filtered by the filter 120 is increased. For reference, the thickness of the first sheet 120 according to an exemplary embodiment of the present invention may be within a range of 2 mm to 10 mm, and may vary depending on the thickness of the porous tube 110 or the required absorption and filtration performance .

In order to examine the filtration performance of the first sheet 120 formed in the above-described form, the following experiment was conducted.

The porosity of the pores of the pores of the pores of the pores of the pores of the pores of the pores of the pores of the pores of the pores of the pores of the pores of the pores of the pores of the pores of the pores of the pores, Experiments were conducted. Experiments were carried out for 30 days in each pore culvert (100), and then the experiment was conducted once a day for 3 days and the average value was calculated. The calculated results are shown in Table 1 below.

As can be seen from the above Table 1, the permeability performance of the pore-tube culter 100 having the first sheet 120 is superior to that of the pore-tube culter 100 without the first sheet 120 .

Meanwhile, the pillar culter 100 according to an embodiment of the present invention may further include a second sheet 130.

The second sheet 130 may be provided to surround the outer circumferential surface of the first sheet 120. The second sheet 130 surrounds the first sheet 120 surrounding the first tube 110 and protects the first sheet 120. When the first tube 120 and the second tube 130 are installed, The initial damage of the culvert 100 can be prevented.

Here, the second sheet 130 according to an embodiment of the present invention may be formed of a polyvinyl alcohol fiber. The second sheet 130 formed of polyvinyl alcohol fibers can be dissolved and naturally removed when the pest 100 is installed or installed in the ground so that it contacts water existing in the ground. Thereby, it is not necessary to separately remove the second sheet 130 after the pillar culter 100 is installed or installed in the ground. For reference, a polyvinyl alcohol-based fiber is a fiber having a property of being dissolved when it is in contact with water.

Meanwhile, the second sheet 130 according to an embodiment of the present invention may be formed of a material other than polyvinyl alcohol-based fibers.

If the second sheet 130 is formed of a material other than the polyvinyl alcohol fiber, the second sheet 130 must be removed after the pillar culter 100 is installed or installed in the ground. This is because when the second sheet 130 made of a material other than polyvinyl alcohol fiber is not removed, the water present in the ground by the second sheet 130 passes through the first sheet 120 and the pipe 110 ).

At this time, the pillar culter 100 according to an embodiment of the present invention may include a second sheet 130 in a form that can be easily removed after being installed or installed in the ground.

4, the second sheet 130 can be removed from the outer circumferential surface of the first sheet 120 by being pulled and torn by the force of the operator or the working machine, that is, the external force F. [

At this time, at least one perforation line 132 may be formed on the second sheet 130 to easily tear the second sheet 130 when an external force F is applied. The second sheet 130 is torn on both sides by the external force F as the perforated line 132 is formed on the second sheet 130 so that the second sheet 130 can be easily removed from the outer surface of the first sheet 120, Can be removed.

The second sheet 130 is formed in a thin thickness so that the second sheet 130 can be easily removed by the external force F without forming the tear line 132 in the second sheet 130 . For example, the thickness of the second sheet 130 according to an exemplary embodiment of the present invention may be within a range of 1 mm to 2 mm, depending on the thickness of the tube 110 or the first sheet 120.

Hereinafter, a method of constructing the pillar culter 100 according to an embodiment of the present invention will be described with reference to FIGS. 5 and 6. FIG.

As shown in FIGS. 5 and 6, the method of constructing the pillar culter 100 according to one embodiment of the present invention includes the steps of pressing the pillar culter 100 (S110), pressing the pierced tube culter 100 (S120) of injecting or installing the soil into the ground or a step (S130) of injecting air into the installed or installed hole pipe culter (100).

First, air is taken out from the inside of the tube 110 and the tube 100 is compressed (S110).

Specifically, as shown in Fig. 6 (a), the pillar culter 100 can be squeezed before being installed or installed in the ground. At this time, the first and second sheets 120 and 130 provided around the outer circumferential surface of the cylindrical pipe 110 may be squeezed together with the first and second sheets 120 and 130, respectively.

The first sheet 120 is provided to surround the outer surface of the pipe 110 and the second sheet 130 is provided to surround the outer circumferential surface of the first sheet 120 by using an air sucker When the air is taken out from the inside of the pipe 110, the pipe 110, the first sheet 120 and the second sheet 130 can be flattened at a time. This is because the drain hole 112 of the hole 110 is clogged by the second sheet 130 so that air is drawn from the hole 110 and the first sheet 120, (130) can be integrally flattened. At this time, it is preferable that the pipe 110 is made thin or formed of a flexible material so as to be pressed.

For the sake of reference, it is preferable to compress the hole 100 in a state where it is possible to carry and install the hole 100 when the hole 100 is partially compressed.

Next, the piercing pipe culter 100 in a state in which the piercing pipe 110, the first sheet 120, and the second sheet 130 are all pressed together is installed or installed in the ground (S120).

At this time, as shown in FIG. 6 (a), the pillar culter 100 can be installed or installed in the ground in a compressed state. In addition, although not shown in the drawing, when installing the pillar culter 100 in the ground, additional soil such as an excavator or a tractor is used to overtake the soil in the ground, 100) can be installed. For reference, when the pit 100 is installed in the ground using an excavator or a tractor, a groove is formed in the ground beforehand, and the pit 100 is installed.

It is difficult to install the circular pipe pit 100 when the pit 100 is installed at the same time as the excavation of the pit 100. When the pit 100 is installed in the ground, (112) may be blocked by soil or sand in the ground.

Therefore, it is preferable that the pillar culter 100 according to one embodiment of the present invention is installed or installed in the ground after the compression. Furthermore, it may be more convenient to transport the pillar culter 100 to the site of construction as the pillar culter 100 is squeezed.

Then, air is injected into the pier culvert 100 installed or installed (S130).

As shown in FIG. 6 (b), compressed air (air) can be forcibly injected from the outside into the interior of the pipe 110 by using an air injector (not shown). At this time, the perforated pipe 110, the first sheet 120, and the second sheet 130 pressed by the air to be inflated expand and the pillar culter 100 may have a circular shape.

When the air is blown out from the pillar culvert 100 or air is injected to expand it, one end of the pillar culvert 100 is blocked to block air from entering the outside during compression and to allow air to escape to the outside when inflated. .

The air injected into the pipe 110 flows out through the drain hole 112 by the second sheet 130 provided around the outer circumferential surface of the pipe 110 or around the outer circumferential surface of the first sheet 120 Can be blocked. That is, since the second sheet 130 closes the drain hole 112 of the oil hole 110, it is possible to prevent the compressed air from leaking through the drain hole 112 when the compressed air is injected into the oil hole 110 . Thus, the second sheet 130 serves as an air vent prevention sheet.

As described above, since the second sheet 130 according to an embodiment of the present invention is formed of polyvinyl alcohol-based fibers, before the ground is brought into contact with water, air flows into the interior of the porous tube 110, Of soil or sand can be prevented from entering. Accordingly, the second sheet 130 can prevent the forced air injected into the pipe 110 from being discharged to the outside until the second sheet 130 is installed or installed in the ground and dissolved in water .

However, if the second sheet 130 covers the drain hole 112 of the hole 110 after the hole 100 is completely installed, drainage into the hole 110 is prevented. Since the second sheet 130 according to an embodiment of the present invention is formed of polyvinyl alcohol fiber, it can be dissolved and removed when it comes into contact with water in the ground. Thus, when the second sheet 130 is removed, water in the ground can be drained into the pipe 110 through the drain hole 112 of the pipe 110.

In addition, the pillar culter 100 according to an embodiment of the present invention can maintain a cylindrical shape by the first sheet 120 provided around the outer circumferential surface of the pillar 110. As described above, the first sheet 120 is thicker than the porous tube 110, and the first sheet 120 is originally circular or cylindrical. Therefore, the first sheet 120, once expanded, It can be very difficult. Accordingly, the cylindrical pipe culter 100 expanded by the compressed air can continuously maintain the circular state by the first sheet 120.

The method may further include a step (S140) of installing a screening filter 140 around the pipe culvert 100 after the step (S120) of installing or installing the pipe pipe culter 100 in the ground.

Specifically, as shown in FIG. 6C, in order to improve the drainage performance of the oil pipe culter 100 installed or installed in the ground and to screen the soil fine particles primarily, A screening filter 140 including blast furnace slag aggregate can be installed around the culvert 100. [

The screening filter 140 is installed around the perforated pipe culvert 100 with a thickness of 30 mm to 70 mm or around the perforated pipe culter 100 so that the soil water is absorbed into the perforated pipe 110 after the primary particles of the soil are first screened It is possible to further improve the drainage performance of the pillar culvert 100.

The blast furnace slag aggregate contained in the screening filter 140 is a waste generated in the steel industry and has a structure having many voids so that the fine particles of soil or sand in the ground are first screened, 100) so that the moisture of soil or sand can be absorbed.

On the other hand, the size of the blast furnace slag aggregate contained in the screening filter 140 installed around or around the pillar culvert 100 may range from 5 mm to 25 mm. At this time, it is preferable that the size of the blast furnace slag aggregate is formed to be larger than the drain hole 112 formed in the pipe 110. As described above, since the screening filter 140 primarily screens fine particles of soil or sand in the soil where the pest 100 is installed or formed, the screening filter 140 is formed to have a size larger than the size of the drain hole 112 The screening performance can be further improved and clogging of the drain hole 112 by the blast furnace slag aggregate can be prevented.

6 (c), the screening filter 140 is provided around the periphery of the pillar culter 100, that is, the outer surface of the second sheet 130. However, as described above, May be provided around the perforated pipe culvert 100 or around the perforated pipe culter 100 installed or installed in the ground. However, when the pillar culter 100 is installed or installed in the ground, the screening filter 140 including the blast furnace slag aggregate is disposed around or around the pillar culter 100 and the perimeter or upper side of the screening filter 140 The screening filter 140 is installed on the outermost periphery of the cavity 100 of the cavity as shown in FIG. 6 (c).

6 is a perspective view showing the construction of a screening filter 100 according to an embodiment of the present invention. Referring to FIG. 6, a squeezed filter 100 is installed in a ground, and air is injected into a hole 100 installed in the ground, 140 are provided, but the present invention is not limited thereto. That is, it is also possible to install the screening filter 140 after installing or installing the hole 100 in the ground, injecting air into the compressed hole 100 and injecting the hole 100 into the hole, Or the screening filter 140 may be installed before air is injected into the squeezed pipe tube culter 100.

The first sheet 120 surrounds the periphery of the outer circumferential surface of the cavity 100 of the cavity according to an embodiment of the present invention. The first seat 120 surrounds the cavity of the cavity 100 when the cavity is installed or installed in the ground. The filtration performance of fine particles of soil or sand in the soil of the soil (140) was tested as follows. For the sake of convenience, it is assumed that a screening filter 140 composed of a blast furnace slag aggregate is provided around the outermost periphery of the pillar culter 100 for the sake of convenience.

In the experiment, when there are only the first sheet 120, only the first sheet 120, and the screening filter 140 without the first sheet 120, the first sheet 120, 120 and a screening filter 140 were installed in the same manner as in the first embodiment. Experiments were carried out for 30 days in each pore culvert (100), after which the experiment was conducted once a day for 3 days and the average value was calculated. The experimental results are shown in Table 2 below.

As can be seen from Table 2, compared to the filtration performance of the pillar culter 100 having neither the first sheet 120 nor the screening filter 140 nor the first sheet 120 or the screening filter 140 , And the filtration performance of the porosity trough 100 having both the first sheet 120 and the screening filter 140 was excellent.

According to the construction of the present invention, it is possible to prevent the drainage hole 112 formed in the oil pipe 110 from being clogged by the first sheet 120 provided on the outer peripheral surface of the oil pipe 110, So that the drainage performance of the pillar culter 100 can be improved.

Also, since the pillar culter 100 according to the present invention and its construction method are transported and installed in a state in which the pier culter 100 is squeezed, the transportability and workability of the pillar culter 100 can be improved. Furthermore, because the piercing pipe culver 100 is installed in a compressed state, the piercing pipe culter 100 can be installed at the same time as the excavation of the ground, so that installation cost and time can be reduced.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. Accordingly, the spirit of the present invention should not be construed as being limited to the embodiments described, and all of the equivalents or equivalents of the claims, as well as the claims set forth below, fall within the scope of the present invention.

100: Pipelining culvert
110:
112: drain hole
120: first sheet
130: second sheet
132: perforated line
140: Screening filter

Claims (10)

In a pit culvert culvert or installed in the ground,
A plurality of drain holes formed in the pipe;
A first sheet provided to surround the periphery of the pipe;
A second sheet provided to surround the outer circumferential surface of the first sheet; And
A screening filter arranged to surround the periphery of the second sheet;
Lt; / RTI >
Wherein the first sheet is made of a porous material capable of preventing the drain hole from being clogged by soil or sand in the ground, or capable of absorbing moisture, so as to absorb moisture in the ground and drain through the drain hole through the drain hole,
The second sheet protects the first sheet and prevents initial damage of the tube or the tube tube when the tube tube culter is installed. When the tube is squeezed or expanded, air flows in or out of the tube through the drain hole Preventing sheet,
Wherein the screening filter includes a blast furnace slag aggregate having a thickness of 30 mm to 70 mm and a size of 5 mm to 25 mm and has a water permeability coefficient of 1 to 1.129 times larger than that of the screening filter,
The pore tube culter has a permeability coefficient of 3.3 × 10 ^-2 to 3.5 × 10 ^-2 cm / sec by having the screening filter, and when air is drawn in the inside of the tube or air is injected into the tube, Shaped to expand in a cylindrical shape,
Wherein at least one perforation line is formed in the second sheet so that the second sheet is torn when an external force is applied thereto.
delete delete delete delete A method of constructing a pipe culvert according to claim 1,
Extracting air from the pore pipe and squeezing the pore pipe culvert;
Placing or pressing the squeezed pipe tube culvert in the ground; And
Injecting air into the pit culvert installed or installed in the ground to expand the pit culvert;
Wherein the method comprises the steps of:
The method according to claim 6,
In the step of injecting the air,
Wherein the air introduced into the pit culvert is prevented from flowing out of the pit by the second sheet.
8. The method of claim 7,
In the step of injecting the air,
Wherein the expanded pore tube cage maintains a cylindrical state by the first sheet surrounding the outer circumferential surface of the pore tube.
The method according to claim 6,
After the step of installing or installing the pillar culvert in the ground,
And installing the screening filter including the blast furnace slag aggregate around the perimeter of or around the perforated pipe culvert.
10. The method of claim 9,
Wherein the blast furnace slag aggregate of the screening filter is formed to have a size larger than that of the drain hole.

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