KR20180009277A - easy leak-proof culvert and constructing method of the same - Google Patents

Abstract

The present invention relates to a culvert easy to prevent leak, buried under the ground to transfer water to a desired place, and a construction method thereof. According to the present invention, the culvert comprises: a first steel pipe to form outer appearance and formed by rolling and bonding a corrugated or a waveform steel sheet; a second steel pipe connected to the first steel pipe, and formed by rolling and bonding another corrugated or waveform steel sheet; a coupling band disposed on the outside of the first and second steel pipes to connect the first and second steel pipes; a sealant installed inside the first and second steel pipes joined by the coupling band to closely seal between the first and second steel pipes; and a leak sensor installed on one side of the coupling band to detect a leak in a part where the first and second steel pipes are joined by the coupling band. Accordingly, provided is an effect capable of preventing contamination of groundwater, subsidence of a road, or a sinkhole caused from a leak which can be generated in a joint part of the culvert.

Description

[0001] 1. Field of the Invention [0002] The present invention relates to a culvert and a constructing method of the same,

More particularly, the present invention relates to a culvert and a method of constructing the culvert, and more particularly, to a culvert comprising a plurality of corrugated steel pipes connected to each other to reduce the number of processes and construction time, And a culvert which can improve watertightness and is easy to prevent leakage, and a method of constructing the culvert.

There are culverts as a means for waterways to cross festivals such as banks, roads, railways, or to provide sewerage underground, for example, a reinforced concrete pipe.

This reinforced concrete pipe is made by reinforcing concrete to reinforce the tensile strength of concrete. There is a RC culvert that cures the concrete after assembling the reinforcing bars and assembling the reinforcing bars directly on site, precast) culvert.

In the case of RC culvert, there is a problem that the workability is lowered due to the assembly and disassembly of the reinforcing bars at the time of construction, and the construction cost is increased due to long-term construction. On the other hand, in the case of the PC culvert, its own weight and volume are so large that the unit length is made 1 to 2 m, so that the connection work process is complicated and the connection part leaks.

Also, due to the freezing of the base cement connecting the connecting portion of the reinforced concrete pipe, it is seasonally restricted, and its durability is also reduced.

An example of such a culvert is disclosed in Korean Patent Registration No. 10-0411659 (registered on December 05, 2003, hereinafter referred to as "Patent Document 1").

Hereinafter, a method of constructing a conventional culvert to be buried underground will be described with reference to the drawings.

1 and 2 are views for explaining a conventional culvert construction method.

Referring to FIGS. 1 and 2, a method of constructing a conventional RC culvert will be described. The underground where the culvert is formed in the site is excavated to form a seat. Thereby forming a bottom concrete 10.

In order to form the side concrete 20 extending in the vertical direction from the bottom concrete 10, the concrete curing operation is performed after assembling the steel bar and forming the mold in the same manner.

Then, as shown in Fig. The upper concrete 30 covering the side concrete 20 should be installed in order to transfer the water to the inner space surrounded by the upper and lower portions and the reinforcing concrete on both sides.

That is, in order to construct a culvert with four sides enclosed by a reinforced concrete structure, the rebar assembly, the mold making, and the concrete curing for each reinforcing concrete must be repeated several times.

Thus, in order to form the RC culver, a lot of work is required in the field, and as a result, the culvert construction period becomes longer.

In order to shorten the construction time of RC culvert, precast culvert (PC culvert), which is prefabricated with reinforced concrete, is heavier in weight, which is disadvantageous to the site management, and is vulnerable to impact, resulting in damage and cracking during handling . Further, there is a problem that it is not easy to join the PC culverts to each other at the site by a steel wire, and then to integrate the joint parts using a fastening ring.

Also, since the RC culvert and the PC culvert can be installed only in a straight line, if the culvert and the PC culvert are connected at a 45 degree angle to form a curved part, the length of the route becomes very long and the curved part construction is also very difficult.

In addition, the RC culvert and the PC culvert according to the prior art can not be easily recognized from the outside even if leaking occurs on the connecting part after being installed in the basement, causing the sewage to permeate into the ground water, causing contamination of ground water, There is a problem that it can be developed.

Korean Patent Registration No. 10-0411659 (registered on December 05, 2003)

It is an object of the present invention to provide a culvert and a method of constructing the culvert which can prevent leakage of groundwater, road settling, or grounding due to leakage of water, which may occur on a connection portion of a culvert.

In addition, by forming the culvert with a rib steel tube or a corrugated steel pipe, it is possible to firmly install the mortar using ribs or corrugations formed on the outer circumferential surface of the rib steel pipe and the corrugated steel pipe, to reduce the number of steps required for culvert construction and to shorten the construction time And a method of constructing the culvert.

The culvert is connected to the outside of the culvert connection part by a gasket and a coupling band is provided. Inside the culvert connection part, a sealant is used to provide a watertight culvert and a construction method .

Further, by constructing the galvanized steel sheet by the combination and arrangement of the corrugated or corrugated steel pipes, it is possible to easily prevent the leakage of the culvert, .

In order to achieve the above object, according to the present invention, there is provided a culvert to be buried in a basement and to move water to a desired place, the culvert comprising: a first steel pipe forming an outer shape and having a corrugated steel plate or a corrugated steel plate rolled; A second steel pipe connected to the first steel pipe and joined with another corrugated steel plate or a corrugated steel plate; A coupling band disposed outside the first steel pipe and the second steel pipe to connect the first steel pipe and the second steel pipe; A sealant installed inside the first steel pipe and the second steel pipe which are connected to each other by the coupling band, for tightly sealing the first steel pipe and the second steel pipe; And a leakage detection sensor provided at one side of the coupling band to detect whether or not the first and second steel pipes are leaking at the portions where the coupling bands are connected to each other by the coupling band.

Preferably, the first steel pipe and the second steel pipe further include a plurality of condensation preventing heat lines provided on the outer circumferential surfaces of the first steel pipe and the second steel pipe including the portions joined to each other by the coupling bands Do.

Further, it is preferable to further include a mortar disposed so as to cover the peripheries of the first and second steel pipes.

In order to achieve the above object, according to the present invention, there is provided a method for installing a culvert to be buried in an underground and moving water to a desired place, the method comprising the steps of: forming a contour, Preparing a steel pipe and a second steel pipe; Connecting the first steel pipe and the end of the second steel pipe by using a coupling band disposed on an outer circumferential surface of the first steel pipe and the second steel pipe, in a culvert position where the first steel pipe and the second steel pipe are formed, ; Attaching a sealant to an inner connecting portion of the first steel pipe and the second steel pipe; Installing a leak sensor on one side of the coupling band; And placing a mortar covering the side surfaces and the upper side of the first steel pipe and the second steel pipe.

The first steel pipe and the second steel pipe are connected to the outer circumferential surface of the first steel pipe and the second steel pipe including a portion where the coupling bands are connected to each other by the coupling band between the step of installing the leak sensor and the step of inserting the mortar It is preferable to further include a step of installing a plurality of condensation-preventing heat rays over the entire surface.

According to the present invention, it is possible to provide a culvert and a method of constructing the culvert which can prevent leakage of groundwater, road settling or grounding due to water leakage that may occur on a connection portion of a culvert.

Further, since the ribs and the corrugated steel pipes form a frame of the inner shape of the culvert and replace the reinforcing bars of the reinforced concrete by forming the culvert with the ribs or the corrugated steel pipes which can easily prevent the leakage, And the construction period can be remarkably shortened.

In addition, a sealant is used on the inner side of the connection part of the culverts to enhance the watertightness, and a solid connection is established between the gasket and the coupling band on the outer side of the connection parts of the culverts, and the mortar is poured around the corrugated steel pipe and the rib steel pipe So that the external pressure strength can be increased and water tightness can be ensured.

Further, by forming the culvert with the combination and arrangement of the steel pipes made of galvanized steel sheets, even when the culvert is to be arranged in a curved shape, the shape deformation of the culvert can be easily changed at both the factory and the site. So that it is possible to realize an easy arrangement in various fields.

1 and 2 are sectional views for explaining a conventional culvert construction method,
3 and 4 are views showing a corrugated steel plate and a corrugated steel plate constituting a culvert to be easily prevented from leakage according to an embodiment of the present invention,
5 and 6 are views for explaining a method of constructing a culvert with which leakage of water is easily prevented by using a steel pipe according to the present invention,
7 is a view showing a configuration of a coupling band according to another embodiment of the present invention,
8 is a view showing a state where a first steel pipe and a second steel pipe are coupled by a coupling band according to the present invention,
FIG. 9 is a view for explaining a water tightness improving process for a steel pipe connecting part according to the present invention, and is a view for showing a sealant treatment for a connection part of a corrugated steel pipe or corrugated steel pipe,
10 and 11 are views for explaining a step of placing mortar on side surfaces and upper surfaces of steel pipes constituting a culvert according to the present invention,
12 is a view showing an example of bending a culvert comprising a plurality of steel pipes according to the present invention,
13 is a view showing a state in which a first steel pipe and a second steel pipe are connected to each other by a coupling band so that a leakproof waterproofing culvert is constructed according to the present invention,
FIG. 14 is a view showing a state where condensation preventing heat lines are provided over the first and second steel pipes of FIG. 13;
15 is a view showing a state in which a van der Waals support portion is provided below a first steel pipe and a second steel pipe that constitute a culvert for easy prevention of leakage according to the present invention;
FIG. 16 is a view showing a state where the ultrasonic pipe cleaning unit is installed in the first and second steel pipes of FIG. 15;

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

Although the present invention has been described with reference to the preferred embodiments thereof, it will be understood by those skilled in the art that the present invention may be embodied in many other specific forms without departing from the spirit or essential characteristics thereof. It is needless to say that the present invention can be applied to a feed pipe for feeding water at a high pressure as long as a coupling band and a sealant for connecting the feed pipe and the sealant can be applied.

3 to 12, the technical idea of the present invention will be described on the assumption that the culvert is easy to prevent leakage.

FIGS. 3 and 4 are views showing a corrugated steel plate and a corrugated steel plate constituting a culvert for easy prevention of leakage according to an embodiment of the present invention.

When the uncoiler is operated after the steel plate (for example, galvanized steel plate) wound in the roll state is mounted on the uncoiler, the steel plate is unwound from the uncoiler and passes through the roll forming portion to form a rib or a waveform .

The culvert comprising the corrugated steel pipe according to the present invention uses a corrugated steel plate (corrugated rib) or a corrugated steel pipe or a corrugated steel pipe with a corrugated core formed by spirally winding the corrugated steel plate while touching the connecting portion.

3, a corrugated steel sheet 100 is shown in which a plurality of corrugations 102 are bent and protruded from a steel sheet main body 101. The corrugated steel sheet 100 has a plurality of And is formed by pressing with a forming roller that forms a folded shape. A catch 103 is formed on one side or both sides of the corrugated steel plate 100 for forming a lock seam.

A plurality of the corrugations 102 are formed in the longitudinal direction of the steel plate 101 and a corrugated steel pipe of a cylindrical shape is formed while the lock shim is formed by welding or joining the engaging pieces 103 with the spirally wound portion.

4, in the culvert of the present invention, a corrugated steel plate 110 in which a corrugated portion 111 having a shape that is continuously bent upward and downward is formed may be used in place of a rib formed in the longitudinal direction of the steel plate have.

In other words, each of the steel pipes constituting the culvert can be manufactured by using a corrugated corrugated steel pipe having a corrugation formed at a joint portion while spirally winding the corrugated steel plate 110.

Each of the steel pipes constituting the culvert, which is easy to prevent leakage of water in this embodiment, is formed by spirally winding or joining a steel plate, and rocks are formed by the steel plate. Water leaking through the inside of the culvert is leaked or introduced into the culvert The sealant treatment for improving the watertightness is performed on the lactic acid portion.

The steel sheet is spirally wound and joined or welded to form a steel pipe, so that the rolled portion is formed. That is, a corrugated steel pipe is formed by spirally winding a galvanized steel sheet having a corrugated portion such as a rib or a corrugated portion and connecting the cores 220 to the curved boundary portion.

According to the present invention, since the culvert is composed of a corrugated steel plate or a corrugated steel plate joined together with a corrugated steel plate, the position where the steel pipe is to be placed is excavated at a culvert construction site, And placed at the excavated position.

Then, the connection for the steel pipes and the construction for improving watertightness are carried out.

5 and 6 are views for explaining a method of constructing a culvert with which leakage of water is easily prevented by using a steel pipe according to the present invention.

First, referring to FIG. 5, a steel pipe is formed using a corrugated steel sheet or a corrugated steel sheet (hereinafter referred to as a corrugated steel sheet). The steel pipe in which the corrugated steel sheet is spirally wound and joined may be called a corrugated steel pipe. The corrugated steel pipe and the corrugated steel pipe are produced in the factory, and the corrugated steel pipe conveyed in the field is disposed underground.

The corrugated steel tubes 200 and 300 have cylindrical body portions 201 and 301 and corrugated portions 210 and 310 protruding from the outer circumferential surface of the body portions 201 and 301 by a predetermined thickness. Or concave portions 220 and 320 are formed.

Next, a coupling process is performed to connect the steel pipes carried to the site.

That is, as shown in FIG. 6, a coupling band 400 is used to connect the first steel pipe 200 and the second steel pipe 300 in order to tightly connect the steel pipes.

The coupling band 400 includes a band body 410 and a flange 420 formed at one end of the band body 410. The joining of the steel pipes can be achieved by positioning the band body 410 on the outer peripheral surfaces of the end portions of the first steel pipe 200 and the second steel pipe 300 and joining / fastening the pair of flanges 420.

Meanwhile, the flanges 420 may be formed as a plurality of pairs according to the embodiment. In this case, the band body may be divided into a plurality of parts. For example, as shown in FIG. 7, a coupling band, which is a means for connecting steel pipes, is composed of a first band 401 and a second band 402, and the flanges formed on the respective bands are used Thereby enabling fastening and coupling.

In another embodiment, it is also possible that the coupling band is composed of three or more bands, and the modification is possible according to the embodiment. FIG. 8 is a view showing a state in which the steel pipes are coupled to each other by the coupling band.

After the primary bonding of the steel pipes by the coupling band 400 is performed, a sealant treatment process is performed on the connection portions of the steel pipes to improve watertightness.

9 is a view for explaining a water tightness improving process for a steel pipe connecting portion according to the present invention.

Referring to FIG. 9, as described above, after the coupling by the coupling band contacting the outer circumferential surface of the steel pipes is performed, a sealant treatment process is performed on the inner surface of the steel pipe to improve the watertightness to the steel pipe connecting portion.

That is, a step of bonding the sealant 500 to the joint surface of the first steel pipe 200 and the second steel pipe 300 is performed. The sealant 500 may be composed of a crosslinkable polyurea or may be made of high viscosity silicon.

By adhering the sealant 500 to the joints inside the steel pipes, water tightness between the inside and outside of the culvert can be further improved.

13, the first steel pipe 200 and the second steel pipe 300 are connected to each other by the coupling band 400, as shown in FIG. 13, after the sealant process is performed on the joints inside the steel pipes A water leakage sensor 810 is installed on one side of the coupling band 400 to detect whether or not water leakage occurs at the jointed portions.

Accordingly, since the culvert is provided not as a concrete but as a steel pipe, the possibility of occurrence of leakage is significantly reduced. However, in a connection portion of the culter 600 (for example, a portion where the first steel pipe and the second steel pipe are connected to each other) It can be easily recognized from the outside through the water leakage sensor 810 so that the wastewater can permeate into the ground water and can prevent contamination of the ground water, have.

The leakage detection sensor 810 detects the leakage of water from the first steel pipe 200 and the second steel pipe 300 to detect the leakage of the water from the first steel pipe 200 and the second steel pipe 300 from one side of the coupling band 400, (Not shown).

After the water leakage sensor 810 is installed on one side of the coupling band 400, as shown in FIG. 11, a process of placing the mortar on the side surface and the upper surface of the steel pipe is performed. That is, there is no need to proceed with the construction of the reinforced concrete for forming the upper lid portion on the side of the reinforced concrete for forming the side wall on the side of the culvert.

FIGS. 10 and 11 are views for explaining a process of inserting mortar into the side surface and the upper surface of a steel pipe constituting a culvert according to the present invention, and FIG. 12 is a view for explaining a process of pouring a culvert comprising a plurality of steel pipes according to the present invention Fig.

As described above, it is possible to produce a plurality of corrugated steel pipes at the factory, and to connect these steel pipes at a culvert construction site.

The culvert of the present invention is constituted by connecting a plurality of the corrugated steel pipes. Although not shown in FIG. 10, it is also possible to construct a mold for pouring mortar following a culvert side to which a plurality of corrugated steel pipes are connected. At this time, considering the thickness of the mortar to be formed on the side of the culvert when the mortar is poured into the culvert side and the upper surface to be subsequently formed, the form can be installed at a predetermined distance from the culvert.

In order to more firmly support the culvert comprising a plurality of corrugated steel tubes, a process for forming the side concrete can be carried out (not shown), and the side concrete, together with subsequent culvert mortar work, .

Before the culvert 600 having a plurality of corrugated steel tubes is disposed in the basement, it is also possible to previously form the lower supporting portion 610 having a mortar pouring therein to support the lower side of the culter 600.

The corrugated steel pipes which are connected to each other in the underground where the culvert is to be formed are placed, and mortar is poured on the left and right sides of the culvert by injecting mortar around the culvert as shown in Fig. That is, the outer protective mortar 700 is formed to cover the side surface and the upper side of the culvert 600 through a single mortar installation.

Since the outer protective mortar 700 is installed not only on the side surface of the culvert 600 but also on the upper surface thereof, it can be easily installed and firmly coupled by the corrugated portions of the corrugated steel pipe constituting the culvert.

In detail, in the present invention, the culvert is formed of a corrugated steel pipe, and the corrugated steel pipe has a rib or corrugated corrugated portion protruding to a predetermined thickness on the outer circumferential surface thereof. Therefore, the area of the mortar put in contact with the steel pipe by the corrugated portion And the folding portion is also excellent in the bonding force with the mortar to be installed to perform the frame function.

In the meantime, the culvert 600 according to the present invention is constructed such that the ground is excavated before being buried in the ground to form a burial hole in which the culter 600 is to be disposed, and the buried compartments are firstly filled with a light- It is possible to arrange the culvert 600, fill the culvert 600 with the lightweight foamed bubble secondarily, and then put the mortar 600 thereon. At this time, the lightweight bubble-mixed soil includes slurry formed by mixing bubbles, water, and cement in soil soil or dirt soil generated from a burial site.

Accordingly, since the periphery of the culvert 600 is protected by the lightweight bubble-mixed soil having the imperviousness, durability, and compressive strength so that the culvert 600 has relatively light characteristics by the air bubbles without passing through the ground water or the like, It is possible to more reliably prevent the diffusion of the outflow so as to prevent pollution of the surrounding soil or ground water due to outflow of wastewater, wastewater, sewage or oil even if it is damaged due to subsidence or the like.

14, the first steel pipe 200 and the second steel pipe 300 are connected to each other by the coupling band 400 between the step of installing the leakage sensor and the step of inserting the mortar, And a plurality of condensation preventing heat rays (850) may be installed on the outer circumferential surfaces of the first steel pipe (200) and the second steel pipe (300).

Accordingly, even if dew condensation occurs due to the temperature difference between the inside and the outside of the tube on the outer circumferential surface of the first steel pipe 200, the second steel pipe 300, and the coupling band 400, the condensation can be periodically evaporated by the condensation preventing heat ray 850 It is possible to prevent corrosion of the first steel pipe 200, the second steel pipe 300 and the coupling band 400 to prevent corrosion or breakage or deformation of the culver 600 And the like can be prevented.

One condensation preventing heat ray 850 flows from the first steel pipe 200 through the coupling band 400 to the second steel pipe 300 along the longitudinal direction of the first steel pipe 200 and the second steel pipe 300 And a plurality of condensation-preventing hot wires 850 are spaced apart from each other at regular intervals on the outer circumferential surfaces of the first steel pipe 200 and the second steel pipe 300.

Further, as shown in Fig. 12, since the culvert is formed by the steel pipe made of the galvanized steel sheet, the corrugated steel pipe itself is formed to be bent or the connecting portion of the corrugated steel pipe is bent, The arrangement in the curved direction is facilitated. After the corrugated steel pipe is manufactured in the factory, the corrugated steel pipe may be bent in the field according to the placement direction of the culver in the field, or a corrugated steel pipe having a bent shape at the factory may be produced.

Being able to easily respond to the placement direction of the culver provides many advantages in the field construction.

For example, in the case of conventional RC culvert or PC culvert, only a straight line is applied as a rigid pipe. However, according to the present invention, a corrugated steel pipe formed of a galvanized steel plate and formed with ribs or corrugated portions has a smooth curve It is advantageous that it is possible to construct in form.

In addition to the simplicity of such construction, since the tight coupling force between the corrugated steel pipe and the mortar is maintained, it is advantageous to the soft ground and the vibration resistance can be improved, which is very helpful for reducing the maintenance cost.

Further, as shown in FIG. 10, after a plurality of corrugated steel pipes are placed in the ground in the ground, mortar pouring for protecting the side and upper surfaces of the culvert can be performed by a single process.

15 and 16, in the lower part of the culvert 600 according to the present invention, that is, at the portion contacting the lower supporting part 610, a strong van der Waals force is applied between the lower supporting part 610 and the lower supporting part 610. [ (See also Fig. 10 for a cantilex 600 and a lower support 610), including a plurality of bristles that have been carbon nano-processed to provide an adhesive force.

Accordingly, once the culvert 600 is disposed at the culvert position, the Van der Waals bonding force is strongly exerted between the lower support portion 610 and the Van der Waals support portion 910 closely attached to the lower support portion 610, 600 can be prevented from being deformed such as being detached from the mounting position or being twisted.

16, in the interior of the culvert 600 according to the present invention, that is, inside the first steel pipe 200 and the second steel pipe 300, the first steel pipe 200 and the second steel pipe An ultrasonic pipe cleaning unit 950 for cleaning the inside of the second steel pipe 300 may be provided.

The ultrasonic wave channel cleaning unit 950 includes a plurality of ultrasonic wave channel cleaning units 950. The ultrasonic wave channel cleaning unit 950 includes an oscillator 951 connected to a power source unit (not shown) to generate high frequency electrical signals, and an oscillator 951. The oscillator 951 converts electrical energy into mechanical energy And a vibrator 953 as a transducer.

Accordingly, various foreign substances contained in the inside of the culvert 600, that is, the inside of the first steel pipe 200 and the second steel pipe 300, are periodically disassembled by the ultrasonic pipe washing unit 950 The inside of the culter 600 is prevented from being clogged due to the immersion of the foreign matter in the sewage in the first steel pipe 200 and the second steel pipe 300, .

In an embodiment of the present invention, the ultrasonic pipe cleaning part 950 is provided on the inner circumferential surface of the first steel pipe 200 and the second steel pipe 300. In another embodiment of the present invention, The first pipe 950 may be installed at a portion of the first pipe 200 and the second pipe 300 which are recessed inwards from the corrugations 210 and 310.

While the invention has been described in connection with what is presently considered to be practical exemplary embodiments thereof, 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 in the appended claims.

200: first steel pipe 300: second steel pipe
400: Coupling band 500: Sealant
600: Culvert 700: Outer protection mortar
810: Leak detection sensor 850: Anti-condensation heat ray

Claims (5)

In a culvert to be buried underground and to move water to a desired place,
A first steel pipe forming an outer shape, and a corrugated steel plate or a corrugated steel plate rolled and joined;
A second steel pipe connected to the first steel pipe and joined with another corrugated steel plate or a corrugated steel plate;
A coupling band disposed outside the first steel pipe and the second steel pipe to connect the first steel pipe and the second steel pipe;
A sealant installed inside the first steel pipe and the second steel pipe which are connected to each other by the coupling band, for tightly sealing the first steel pipe and the second steel pipe; And
A leakage detection sensor provided at one side of the coupling band to detect whether or not the first and second steel pipes are leaking at a portion where the coupling bands are connected to each other;
Wherein the watertightness of the culvert is low. The method according to claim 1,
Further comprising a plurality of condensation preventing heat lines provided on outer circumferential surfaces of the first steel pipe and the second steel pipe including the portions where the first steel pipe and the second steel pipe are connected to each other by the coupling band Easy to prevent water leakage. 3. The method according to claim 1 or 2,
Further comprising a mortar disposed so as to cover a periphery of the first steel pipe and the second steel pipe. A method of constructing a culvert to be buried underground and to move water to a desired location,
Preparing a first steel pipe and a second steel pipe which are joined together by forming a corrugated steel sheet or a corrugated steel sheet;
Connecting the first steel pipe and the end of the second steel pipe by using a coupling band disposed on an outer circumferential surface of the first steel pipe and the second steel pipe, in a culvert position where the first steel pipe and the second steel pipe are formed, ;
Attaching a sealant to an inner connecting portion of the first steel pipe and the second steel pipe;
Installing a leak sensor on one side of the coupling band; And
Placing a mortar covering side and upper sides of the first steel pipe and the second steel pipe;
The method for constructing a culvert according to claim 1, 5. The method of claim 4,
The first steel pipe and the second steel pipe are connected to each other by the coupling band between the step of installing the leak sensor and the step of inserting the mortar, And dew condensation prevention heat lines of the condensation preventing heat lines.

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