KR101984238B1 - Construction method of slide steel structure for connection of culverts for prevention of urban flooding - Google Patents

Abstract

The present invention relates to a construction method for a slide steel frame structure for connecting culverts to prevent urban flooding, capable of easily and rapidly connecting two culverts for preventing urban flooding, which are installed at intervals. The construction method for a slide steel frame structure for connecting culverts to prevent urban flooding includes: a step of measuring distance between a first culvert for preventing urban flooding and a second culvert for preventing urban flooding, which are separated at fixed intervals; a step of preparing a steel frame structure for connecting culverts to prevent urban flooding, having the length shorter than the distance between the first culvert for preventing urban flooding and the second culvert for preventing urban flooding; a step of installing the steel frame structure for connecting culverts to prevent urban flooding, between the first culvert for preventing urban flooding and the second culvert for preventing urban flooding; a step of enabling a main flange to come into contact with one end of the first culvert for preventing urban flooding by inserting multiple anchor bolts installed on one end of the first culvert for preventing urban flooding into multiple through holes of the main flange of a main steel frame structure of the steel frame structure for connecting culverts to prevent urban flooding; a step of coupling multiple nuts to the multiple anchor bolts of the first culvert for preventing urban flooding and fixing the main steel frame structure to the first culvert for preventing urban flooding; a step of enabling an extended flange to come into contact with one end of the second culvert for preventing urban flooding by moving an extended steel frame structure installed to slide on one end of the main steel frame structure and inserting the multiple anchor bolts installed at the one end of the second culvert for preventing urban flooding into the multiple through holes of the extended flange of the extended steel frame structure; and a step of fixing the extended steel frame structure to the second culvert for preventing urban flooding by coupling the multiple nuts to the multiple anchor bolts of the second culvert for preventing urban flooding.

Description

BACKGROUND OF THE INVENTION Field of the Invention The present invention relates to a method of constructing a sliding steel structure for a culvert connection for preventing flooding in a city,

More particularly, the present invention relates to the construction of a culvert for urban flooding prevention, and more particularly, to a culvert for urban flooding prevention, And more particularly, to a method of constructing a slide steel structure for connection to a culvert for prevention of flooding in a city, which can be easily connected to a culvert in a short time.

In case of heavy rains such as the rainy season, in order to prevent rainwater from being drained by the existing gutters and to prevent urban flooding, a large urban flood prevention culvert has been buried underground. Precast concrete (PC) culvert is widely used as a culvert for urban flooding prevention.

However, in the case of cities, many obstacles such as water pipes, gas pipes and electric wires are buried underground.

Therefore, when we construct culvert for city flood prevention, we encounter obstacle water. Since the culvert for urban flood prevention should be connected by a straight line, it is necessary to remove other obstacles or change the installation position so as not to interfere with the installation of the culvert for prevention of flooding in the city.

However, since it may take a long time to remove or move the obstacles, when installing the culvert for urban flooding prevention, it is necessary to leave the part where the obstacle is present and install the culvert for the flooding prevention of the next city.

Thereafter, when the obstacle is removed or moved, the two separated culverts are connected by the on-site concrete pouring work.

However, it is necessary to install reinforcing bars, place a mold around the reinforcing bars, pour concrete, and cure for a certain period of time. Therefore, since it takes about 20 days to put the concrete in place, there is a problem that it takes much time to install the culvert for prevention of flooding in the city.

If the installation work takes a long time in this way, there is a problem that many complaints are caused because it interferes with the operation of the vehicle or the walking of the pedestrian.

In addition, the installation of the on-site concrete has a problem that the quality is lowered due to the complexity of the process, and the construction cost is high due to the long construction period.

The present invention has been made in view of the above problems, and it is an object of the present invention to provide a method of constructing a slide steel structure for culvert connection for prevention of flooding in an urban area, And to provide the above objects.

According to an aspect of the present invention, there is provided a method of constructing a slide steel structure for culvert connection for prevention of flooding of a city,

Measuring a distance between a first city flooding prevention cage and a second city flooding prevention cage which are spaced apart from each other by a predetermined distance;

Preparing a culvert-connecting steel structure for prevention of flooding of a city having a length shorter than a distance between the first city flooding prevention culvert and the second city flooding prevention culvert;

Placing the steel structure for culvert connection for prevention of urban flooding prevention between the first city flooding prevention culvert and the second city flooding prevention culvert;

A plurality of through holes of a main flange of a main steel structure of a culvert-connecting steel structure for city flooding prevention are inserted into a plurality of anchor bolts provided at one end of the first city flooding prevention culvert, Contacting one end of the culvert for prevention of flooding;

Fixing the main steel structure to the first urban flooding prevention culler by fastening a plurality of nuts to a plurality of anchor bolts of the first urban flooding prevention culvert;

A plurality of through holes of an extension flange of the extended steel structure are inserted into a plurality of anchor bolts provided at one end of the second urban flooding prevention culvert to move an extended steel structure slidably provided at one end of the main steel structure, Contacting the extending flange to one end of the second city flooding prevention culvert; And

And fixing the extended steel structure to the second urban flooding prevention culler by fastening a plurality of nuts to a plurality of anchor bolts of the second urban flooding prevention culvert.

At this time, the main frame structure may include a main body having a cross section corresponding to a cross section of the first city flooding prevention culvert, and the main flange may be provided at one end of the main body.

The extended steel structure may include a sliding body having a cross section corresponding to a main body of the main steel structure, and the extending flange may be provided at one end of the sliding body.

Further, the culvert-connecting steel structure for preventing flooding may be installed between one end of the main steel structure and the extended flange of the extended steel structure, and a plurality of elongated length adjustments for moving the extended steel structure to the main steel structure Member; < / RTI >

In addition, the extended steel structure may be moved using a plurality of jacks provided between one end of the main steel structure and the extended flange of the extended steel structure.

According to the construction method of the slide steel structure for culvert connection for preventing flooding of the city according to the embodiment of the present invention having the above-described structure, two urban flood prevention culverts , The main steel frame structure corresponding to the space between the two culverts for flooding prevention is installed and the distance between the main steel frame structure and the culvert for prevention of urban flooding prevention So that it is possible to perform precise construction.

In addition, if two culvert culverts for flooding prevention are connected to each other by using the construction method of a slide steel structure for culvert connection for preventing flooding of an urban area according to an embodiment of the present invention, Connecting the culvert for urban flooding prevention can be completed in one day.

Therefore, according to the method of constructing a steel structure for culvert connection for urban flooding prevention according to an embodiment of the present invention, the construction period is shortened, so that complaints and traffic delays caused by prolonged construction period can be eliminated in the shortest period of time , The construction period is shortened, and the construction cost can be reduced.

1 is a perspective view illustrating a slide steel structure for culvert connection for prevention of flooding in an urban area according to an embodiment of the present invention;
Fig. 2 is a sectional view of the slide steel structure for culvert connection for prevention of flooding in Fig. 1 taken along line I-I;
3 is a cross-sectional view of the slide steel structure for culvert connection for prevention of flooding in Fig. 1 taken along line II-II;
FIGS. 4A to 4D are views for explaining a method of constructing a slide steel structure for culvert connection for prevention of flooding in the city according to an embodiment of the present invention; FIGS.
5 is a perspective view illustrating a slide steel structure for culvert connection for prevention of flooding in the city according to another embodiment of the present invention;
6 is a plan view showing a slide steel structure for culvert connection for prevention of flooding of a city according to another embodiment of the present invention;
FIG. 7 is a plan view of a slide steel structure for culvert connection for prevention of flooding of an urban according to another embodiment of the present invention; FIG.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of a method of constructing a slide steel structure for culvert connection for prevention of flooding of an urban area according to the present invention will be described in detail with reference to the accompanying drawings.

It is to be understood that the embodiments described below are provided for illustrative purposes only, and that the present invention may be embodied with various modifications and alterations of the embodiments described herein. In the following description, well-known functions or components are not described in detail to avoid obscuring the subject matter of the present invention. In addition, the attached drawings are not drawn to scale in order to facilitate understanding of the invention, but the dimensions of some of the components may be exaggerated.

In the case of installing two culvert culverts for flooding prevention at a certain distance in order to remove obstruction obstacles while constructing a culvert for urban flooding prevention, The present invention relates to a method of constructing a slide steel structure for connection to a culvert for preventing inundation in an urban area, which is installed therebetween in order to connect two urban flood prevention culverts.

FIG. 1 is a perspective view showing a slide steel structure for culvert connection for prevention of flooding in the city according to an embodiment of the present invention. Fig. 2 is a sectional view of a slide steel structure for culvert connection for prevention of submergence in Fig. 1, taken along line I-I; Fig. 3 is a cross- Fig.

1 to 3, a slide steel structure 1 for culvert connection for prevention of flooding of a city according to an embodiment of the present invention may include a main steel structure 10 and an extended steel structure 20.

The main steel frame structure 10 is constructed of one culvert PC1 of two urban flooding prevention culverts PC1 and PC2 (see Fig. 4) spaced apart from each other by a predetermined distance, for example, a first urban flooding prevention culvert PC1 It is connected at one end. The length of the main steel frame structure 10 is determined by the distance D between two spaced culverts PC1 and PC2 so that the main steel framework 10 can be easily installed between the two urban flooding prevention culverts PC1 and PC2. (See Fig. 4).

The main steel structure 10 includes a main body 11 having a cross section corresponding to a cross section of an urban flood prevention culvert PC1 and a first urban flood prevention culvert PC1, And a main flange 13 coupled to one end of the main flange 13.

The main body 11 has a cross section corresponding to the cross section of the first urban water immersion prevention culvert PC1, and the interior 16 is formed in an empty hollow form. For example, when the first city flooding prevention culvert PC1 is a precast concrete culvert having a rectangular cross section, the main body 11 is formed in the shape of a channel having a rectangular cross section.

At this time, an inner end surface of the main body 11 is formed to have substantially the same shape and area as the inner end surface of the first urban flooding prevention culvert PC1.

The main body 11 may be formed of a sandwich panel 100 for maintaining strength and lightening.

The sandwich panel 100 may be composed of two steel plates 101 and 102 and a plurality of reinforcing members 103 provided between the steel plates 101 and 102 to reinforce the strength of the steel plates 101 and 102.

For example, the sandwich panel 100 may be composed of a first steel plate 101, a second steel plate 102, a plurality of reinforcing members 103, and a filler 104.

The first steel plate 101 and the second steel plate 102 can be made of a steel plate whose upper and lower surfaces are waterproof and surface-treated.

A plurality of reinforcing members 103 are provided between the first steel plate 101 and the second steel plate 102. A part of the plurality of reinforcing members 103 is installed along the circumference of the first and second iron plates 101 and 102. The reinforcing member 103 exposed to the outside is provided with an injection port (not shown) for injecting the filler 104. As the filler 104, a urethane foaming agent, an epoxy urethane or the like may be used.

A plurality of reinforcing members 103 are provided between the first steel plate 101 and the second steel plate 102 at regular intervals in parallel to one side of the first steel plate 101. The reinforcing member 103 may be a strip-shaped steel plate, but a U-shaped steel, a square steel, a square pipe, an H beam, or the like can be used. In this embodiment, a plurality of reinforcing members 103 are U-shaped in consideration of strength and weight.

3, in the sandwich panel 100 according to the present embodiment, a plurality of U-shaped beams 103 are installed between the first steel plate 101 and the second steel plate 102 at regular intervals, Reinforcing the strength of the first steel plate 101 and the second steel plate 102, it is possible to secure a sufficient strength to withstand the external pressure when the main steel frame structure 10 is buried underground.

The plurality of reinforcing members 103 may be installed to reinforce the strength of the first and second steel plates 101 and 102 so as to form a path through which the filler 104 is filled. To this end, the plurality of reinforcing members 103 may be installed in the shape of a zigzag. For example, one end of the reinforcing member 103 may be provided to be in contact with the reinforcing member 103 on one side, and the other end may be provided to be spaced apart from the reinforcing member 103 on the other side by a predetermined distance.

As described above, since the main steel structure 10 according to the embodiment of the present invention is manufactured using the sandwich panel 100 having a high strength and light weight, it is light in weight and concrete is placed on the site, It is easier to install than connecting the culvert. Since the surfaces of the first steel plate 101 and the second steel plate 102 forming the sandwich panel 100 are subjected to waterproof surface treatment, the main steel frame structure 10 is buried underground, Can be minimized.

However, as another example, although not shown, the main frame structure 10 may be formed using a single thick steel plate instead of the sandwich panel 100.

The main flange 13 is for connecting the main steel structure 11 to the first urban flooding prevention culvert PC1 and extends vertically outwardly with respect to the main body 11 at one end of the main body 11 , And is formed in a substantially rectangular shape. That is, the main flange 13 is formed as a hollow rectangular frame that surrounds one end of the main body 11.

A plurality of through holes (14) are provided in the main flange (13). The plurality of through holes 14 may be provided in a number corresponding to a plurality of anchor bolts 55 provided in the city water immersion prevention culvert (PC1, PC2). Therefore, by inserting the plurality of through holes 14 of the main flange 13 into a plurality of anchor bolts 55 provided at one end of the first urban water immersion prevention culvert PC1 and filling the nuts 50, (10) can be fixed to the first city flooding prevention culvert (PC1).

The extended steel structure 20 is formed to be adjustable in length so as to fill the gap between the main steel structure 10 and the second urban flooding prevention culvert PC2. To this end, the extended steel structure 20 is provided at one end of the main steel structure 10 so as to be slidable along the inner surface of the main steel structure 10, and the other of the two urban flooding prevention culverts PC1 and PC2, (PC2), for example, one end of the second city flood prevention culvert PC2.

The extended steel structure 20 includes a sliding body 21 having a cross section corresponding to the main body 11 of the main steel structure 10 and a second body 20 provided at one end of the sliding body 21, PC2. ≪ / RTI >

The sliding body 21 is inserted into the main body 11 to be slidable along the inner surface of the main body 11. That is, the outer surface of the sliding body 21 is formed so as to be able to slide relative to the main body 11 while being in contact with the inner surface of the main body 11. Therefore, when the main body 11 is formed into a hollow pipe shape having a rectangular cross section as shown in Figs. 1 and 3, the sliding body 21 is also formed into a hollow pipe shape having a rectangular cross section. In other words, an empty space 26 corresponding to the internal space 16 of the main body 11 is formed in the sliding body 21 as well.

Since the length of the extended steel structure 20 is shorter than the length of the main steel structure 10, the sliding body 21 can be formed into a steel plate. In general, the extended steel structure 20 functions to adjust the length of the slide steel structure 1 for culvert connection for prevention of flooding in the city, which is installed between the two urban flooding prevention culverts PC1 and PC2, Can be formed to have a length of about 20% of the length of the substrate 10. When the main steel structure 10 is manufactured more precisely, the length of the extended steel structure 20 may be 10% or less of the length of the main steel structure 10.

However, as another example, in order to increase the strength of the extended steel structure 20, the sliding body 21 of the extended steel structure 20 also has the same structure as the main body 11 of the main steel structure 10 described above, (100).

The extension flange 23 is for connecting the extension steel structure 20 to the second urban water immersion prevention culvert PC2 and extends vertically outwardly with respect to the sliding body 21 at one end of the sliding body 21 , And is formed in a substantially rectangular shape. That is, the extending flange 23 is formed with a hollow rectangular frame surrounding one end of the sliding body 21.

The extension flange 23 is provided with a plurality of through holes 24. The plurality of through holes 24 may be provided in a number corresponding to a plurality of anchor bolts 55 provided in the second city flooding prevention culvert PC2. Therefore, by inserting the plurality of through holes 24 of the extension flange 23 into the plurality of anchor bolts 55 provided at one end of the second urban water immersion prevention culvert PC2 and filling the nuts 50, (20) can be fixed to the second city flood prevention culvert (PC2).

Further, a plurality of extension length adjusting members 30 may be provided between the main steel structure 10 and the extended steel structure 20 to facilitate the movement of the extended steel structure 20.

A plurality of extension length adjusting members 30 are formed at one end of the main body 11 of the main steel structure 10, that is, at one end of the main body 11 where the main flange 13 is not provided, Is provided between the extension flanges (23) so as to move the extended steel structure (20) relative to the main steel structure (10).

The plurality of extension-length adjusting members 30 may be provided on each side of the square-pipe-shaped sliding body 21, one by four. The extended length adjusting member 30 is operated so that the extended steel structure 20 can be easily removed from the main steel structure 10 by operating one extension length adjusting member 30 on each of the four side surfaces of the sliding body 21. [ Can be extended.

As another example, when the slide steel structure 1 for culvert connection for preventing flooding of the city is buried in the ground, the extension length adjusting member 30 may not be provided on the bottom surface of the sliding body 21. That is, the extension length adjusting member 30 can be provided only on the upper surface and both side surfaces of the sliding body 21.

Each of the plurality of extension length adjusting members 30 includes a jack bolt 31, a nut member 32 provided at one end of the main body 11, a holding member 34 provided at an extension flange 23 of the extended steel structure 20 ).

One end of the jack bolt 31 is provided with a head portion 31a that is inserted into the groove 34a of the holding member 34 and rotates. A jack bolt 31 can be turned on or rotated at one side of the head portion 31a And a male screw is formed from the projecting portion 33 to the other end of the jack bolt 31. [ The projecting portion 33 may be formed into a hexagonal body so as to be turned by a spanner.

The nut member 32 is fixed to one end of the main body 11 and a female screw is formed at the center of the nut member 32 to fasten the male screw of the jack bolt 31. The main body 11 is provided at a lower portion of the nut member 32 with a space into which the jack bolt 31 can be inserted.

The holding member 34 is fixed to the extension flange 23 of the extended steel structure 20 and a groove 34a corresponding to the tip of the head portion 31a of the jack bolt 31 is formed at the center. For example, when the tip of the head portion 31a of the jack bolt 31 is formed in a dome shape, the groove 34a of the holding member 34 receives the tip end of the head portion 31a of the jack bolt 31 The groove of the hemisphere can be formed.

The male screw of the jack bolt 31 is fastened to the nut member 32 provided at one end of the main steel structure 10 and the head portion 31a of the jack bolt 31 is fastened to the extended flange 31 of the extended steel structure 20, The extension length adjusting member 30 is installed on the slide steel structure 1 for culvert connection for prevention of flooding in the city. One end portion of the jack bolt 31 formed with the male screw is fastened to the nut member 32 of the main steel structure 10 and the head portion 31a of the jack bolt 31 is fastened to the holding member 32 of the extended steel structure 20. [ The jack bolt 31 can be stably rotated because the jack bolt 31 is supported at both ends thereof.

In this state, when the projecting portion 33 of the jack bolt 31 is turned in the direction in which the jack bolt 31 is pulled out of the nut member 32, the jack bolt 31 is screwed into the nut member 32 of the main steel structure 10 , So that the extended steel structure 20 is pulled out of the main steel structure 10.

Therefore, when the plurality of extension-length adjusting members 30 are rotated while the main steel structure 10 is fixed to the first urban flooding prevention culvert PC1, the extended steel structure 20 is moved. When the extended steel structure 20 is moved and one end of the extended steel structure 20 is brought into contact with one end of the second urban flood prevention culvert PC2, the first urban flood prevention culvert PC1 and the second urban flood prevention The prevention culvert PC2 can be connected to the slide steel structure 1 for culvert connection for prevention of flooding of the city according to the embodiment of the present invention.

Hereinafter, a method of constructing a slide steel structure for culvert connection for prevention of flooding of an urban area according to an embodiment of the present invention will be described in detail with reference to FIGS. 4A to 4D.

4A to 4D are views for explaining a method of constructing a slide steel structure for culvert connection for prevention of flooding of an urban area according to an embodiment of the present invention.

First, as shown in FIG. 4A, the operator sets the distance D between the two urban flood prevention culverts, that is, the first urban flood prevention culvert PC1 and the second urban flood prevention culvert PC2, ). In this case, the first urban water immersion prevention culvert PC1 and the second urban water immersion prevention culvert PC2 are spaced apart from each other due to obstacles (not shown) therebetween.

Next, a slide steel structure 1 for culvert connection for prevention of flooding of an urban area according to an embodiment of the present invention having a length that can fill between two urban flood prevention culverts PC1 and PC2 is prepared.

At this time, the steel structure for culvert connection (1) for flooding prevention of floods according to the present invention is not manufactured on site, but is manufactured in a separate factory. Therefore, it is possible to construct a steel structure (1) for culvert connection for prevention of flooding of a city in a separate factory while removing disturbing obstacles in the field, thereby shortening the construction period.

The total length L of the slide steel structure 1 for preventing flooding of a city in the state where the extended steel structure 20 is completely inserted into the main steel structure 10 is obtained from two urban immersion prevention culvert PC2 and the total length in a state in which the extended steel structure 20 is sufficiently extracted from the main structural steel structure 10 is smaller than the distance D between the two urban flooding prevention culverts PC1 and PC2 D) is used. At this time, the length L of the culvert-connecting steel structure 1 for prevention of flooding of the city in the state where the extended steel structure 20 is inserted into the main steel structure 10 is larger than the length L of the anchor of the first urban flooding prevention culvert PC1 It is necessary to make the distance D1 smaller than the distance D1 between the bolts 55 and the anchor bolts 55 of the second city flooding prevention culvert PC2.

With the extension steel structure 20 fully inserted into the main steel structure 10, the slide steel structure 1 for culvert connection for prevention of flooding of the city is placed between the two urban flooding prevention culverts PC1 and PC2 .

Then a plurality of through holes 14 of the main flange 13 of the main steel structure 10 are inserted into a plurality of anchor bolts 55 provided at one end of the first urban flooding prevention culvert PC1, The slide steel structure 1 for culvert connection for city flooding prevention is positioned such that the slide cage 13 is brought into contact with one end of the first city flooding prevention culvert PC1.

4B, the nut 50 is fastened to each of the plurality of anchor bolts 55 to fix the main steel structure 10 to one end of the first urban flooding prevention culvert PC1 .

Subsequently, the operator operates a plurality of extension length adjusting members 30 to move the extended steel structure 20 from the main steel structure 10 to the second urban flooding prevention culvert PC2. Specifically, when the projecting portion 33 of the jack bolt 31 of the extension length adjusting member 30 is turned using a tool, the extended steel structure 20 slides relative to the main steel structure 10, And moves toward one end of the city water immersion prevention culvert (PC2).

A plurality of anchor bolts 55 provided at one end of the second city flooding prevention culvert PC2 are inserted into the plurality of through holes 24 provided in the extension flange 23 of the extended steel structure 20. [ In this state, the jack bolts 31 of the plurality of extension length adjusting members 30 are continuously turned so that the extension flange 23 of the extended steel structure 20 is inserted into the second urban water immersion prevention cowl (PC2).

A nut 50 is then attached to each of the plurality of anchor bolts 55 of the second urban flood prevention culvert PC2 protruding through the plurality of through holes 24 of the extension flange 23 of the extended steel structure 20. [ . Then, as shown in Fig. 4D, the extended steel structure 20 is fixed to one end of the second urban water immersion prevention culvert PC2.

Thereafter, a sealing operation is performed on the connection between the main steel structure 10 and the extended steel structure 20, if necessary, to prevent water from leaking into the gap between the main steel structure 10 and the extended steel structure 20 .

Although the extended steel structure 20 has been described above with the use of the plurality of extension length adjusting members 30 provided between the main steel structure 10 and the extended steel structure 20, Is not limited to this.

As another embodiment, it is not necessary to provide a plurality of elongated length adjusting members 30 for moving the extended steel structure 20 to the main steel structure 10 and the extended steel structure 20.

FIG. 5 shows an example of a slide steel structure for culvert connection 1 'for prevention of flooding in the city, in which a plurality of extension length adjusting members are not provided between the main steel structure 10 and the extended steel structure 20.

When a plurality of extension length adjusting members 30 are not provided in the crawler connecting slidable steel structure 1 'for preventing flooding of the city, a jack, which is a general mechanism for lifting a heavy item, (20) can be moved.

For example, a plurality of jacks (not shown) may be provided between one end of the main steel structure 10 and the extended flange 23 of the extended steel structure 20, Can slide relative to the main steel structure 10.

In the above description, the slide steel structure 1 for culvert connection for prevention of flooding in a straight-type city used in the case where two urban flood prevention culverts PC1 and PC2 are arranged in a straight line has been described. However, PC2) are not necessarily arranged in a date.

If two culverts for flooding prevention are arranged at an angle, two culvert culverts can be connected by using a slide steel structure for culvert-type flood prevention culvert.

FIG. 6 shows an example of a slide steel structure for culvert connection for preventing flooding of the city.

Referring to FIG. 6, the slide steel structure 2 for culvert-type urban flood prevention is provided with a main steel structure 210 connected to one of two culvert preventing culverts (the first city flooding prevention culvert) And an extension steel structure 220 connected to one of the two culvert prevention culverts (the second city flooding prevention culvert).

The main steel structure 210 includes a main body 211 having a cross section corresponding to a cross section of the culvert for preventing flooding of the city and a main body 211 provided at one end of the main body 211, And may include a flange 213.

The main steel structure 210 of the slide steel structure for culvert connection 2 for preventing falling-down of the flooded city shown in Fig. 6 is fixed to a fixed steel structure The slab-type slide steel structure 1 for preventing flooding of the straight-type city has the same structure as the main steel structure 10 of the above-described slide type steel structure 1 except for being bent at an angle.

The extended steel structure 220 is formed to be adjustable in length to fill the gap between the main steel structure 210 and the culvert for preventing flooding. To this end, the extended steel structure 220 is slidably provided at one end of the main steel structure 210 along the inner surface of the main steel structure 210, and is connected to one end of the second urban flooding prevention culvert.

The extended steel structure 220 includes a sliding body 221 having a section corresponding to the main body 211 of the main steel structure 210 and a sliding body 221 provided at one end of the sliding body 221, And may include an extending flange 223 coupled thereto.

The extended steel structure 220 of the slide steel structure 2 for connection to the culvert for preventing flooding of the city shown in FIG. 6 is formed by joining the extended steel structure 20 of the slid- ), And thus a detailed description thereof will be omitted.

The method for constructing the steel structure for culvert connection for prevention of flooding of the downward city as shown in FIG. 6 is similar to the construction method of the steel structure for culvert connection for preventing flooding of the straight-type city described above, and a detailed description thereof will be omitted.

The main flange 213 is not provided at one end of the main steel structure 210 of the slide steel structure for culvert linking for the submerged urban flooding prevention 2, A second extended steel structure may also be provided. When the extended steel structure 220 is installed at both ends of the slide steel structure 2 for culvert connection for preventing flooding of the city, it is easier to connect the two culverts for flooding prevention arranged at a certain angle Is advantageous.

In addition, it is sometimes necessary to connect two or more flood prevention culverts during the construction of the city culvert prevention culvert.

7 shows a T-shaped urban immersion prevention cowl connection slide according to an embodiment of the present invention, which can be used when three urban flood prevention culverts are spaced apart from each other by a certain distance and a space therebetween is substantially T- An example of the steel structure 3 is shown.

Referring to FIG. 7, a slide steel structure 3 for culvert connection for preventing T-shaped flooding of a city according to an embodiment of the present invention includes a T-shaped main steel structure 310 and three extended steel structures 320, 330 and 340 .

The main steel structure 310 is formed into a T shape and is formed of a main body 314 having a cross section corresponding to the cross section of the city water immersion prevention culvert. The T-shaped main body 314 is provided with three end portions 311, 312, and 313, and three extended steel structure structures 320, 330, and 340 coupled to one end of the three urban flood prevention culverts.

The main steel structure 310 of the slide structure 3 for culvert connecting troughs for preventing flooding of the T-shaped city shown in Fig. 7 has a T-shaped structure so that the main body 314 can connect three urban flooding prevention cul- The detailed description will be omitted because it can be formed in the same manner as the main body 11 of the main steel structure 10 of the sliding steel structure 1 for culvert connection for prevention of flooding of the straight-type city described above.

Three extended steel structures 320, 330 and 340 are formed to be adjustable in length to fill the gap between the main steel structure 310 and the three urban flood prevention culverts. To this end, the three extended steel structures 320, 330 and 340 are slidably provided at the three ends 311, 312 and 313 of the main steel structure 310 along the inner surfaces of the respective ends 311, 312 and 313 of the main steel structure 310, The second city is connected to one end of the culvert for prevention of flooding.

Each of the three extended steel structures 320, 330 and 340 is provided with sliding bodies 321, 331 and 341 having a cross section corresponding to the main body 314 of the main steel structure 310 and at one end of the sliding bodies 321, 331 and 341, 333, 343, which are joined to the flanges 323, 333, 343.

The extended steel structures 320, 330 and 340 of the T-shaped urban flooding prevention slide connection steel structure 3 are connected to the extended steel structures 20 of the above- ), And thus a detailed description thereof will be omitted.

As shown in FIG. 7, the method for constructing the T-shaped waterproofing culvert-connecting steel structure 3 according to the embodiment of the present invention includes the steps of: And the two extended steel structures 320 and 330 provided at the two ends 311 and 312 arranged in a straight line, respectively, can be connected to the corresponding two urban flood prevention culver respectively. The method of connecting the three elongated steel structures 320, 330 and 340 to the culvert for prevention of urban flooding prevention is similar to the above-mentioned method of constructing the steel structure 1 for culvert connection for culvert prevention of flood prevention of the straight line type,

In FIG. 7, a description has been given of the slide steel structure 3 for culvert connection for prevention of flooding of T-shaped city which can be used when the three culverts for flooding prevention are separated to form a substantially T-shaped space. However, The arrangement of the culvert for use is not limited thereto. Even if three urban flood prevention culverts are arranged at various distances, the main steel structure is formed so as to correspond to the space between the three culvert prevention culverts, and an extended steel structure is provided at each of the three ends of the main steel structure If it is slidably installed, it is easy to connect three cities flood prevention culvert.

For example, in the case where three city waterproofing culverts are spaced from each other to form a substantially Y-shaped space in the middle, the main steel structure is formed into a Y-shape, and three elongate slides Steel structures can be installed to connect three culvert culverts.

As described above, according to the method of constructing a slide steel structure for culvert connection for preventing flooding in the city according to an embodiment of the present invention, in order to remove the obstacle, two or three flood prevention culverts It is necessary to install a corresponding main steel structure in a space between two or three flood prevention culverts and to use an extended steel structure which can be extended by a predetermined length to the main steel structure So that the gap between the main steel structure and the culvert for urban flooding prevention can be matched.

Therefore, according to the construction method of the slide steel structure for culvert connection for preventing the flooding of the city according to the embodiment of the present invention, since the installation of the on-site concrete is not necessary as in the prior art, the construction can be completed on the same day.

For example, in the case where the concrete pouring is performed as in the conventional art, it takes about 20 days after the removal of the obstacle. However, according to one embodiment of the present invention, According to this, there is an advantage that the work can be completed one day after removing the obstacle.

Therefore, it is possible to eliminate complaints and traffic delays caused by prolonged construction period in the shortest period, and the construction period is shortened, so that the construction cost can be reduced.

The invention has been described above in an illustrative manner. The terms used herein are for the purpose of description and should not be construed as limiting. Various modifications and variations of the present invention are possible in light of the above teachings. Therefore, unless otherwise indicated, the present invention may be practiced freely within the scope of the claims.

1,2,3; Metal constructions for ventilation ...
10; A main steel structure 11; Main body
13; A main flange 20; Extensible steel constructions
21; A sliding body 23; Extension flange
30; An extension length adjustment member 31; Jack Bolt
32; Nut member 33; Turning
34; A holding member 50; nut
55; Anchor bolt 100; Sandwich panel
101, 102; Iron plate 103; The reinforcing member
210; A main steel structure 220; Extensible steel constructions
310; A main steel structure 314; Main body
320,330,340; Extensible steel constructions

Claims (5)

Measuring a distance between a first city flooding prevention cage and a second city flooding prevention cage which are spaced apart from each other by a predetermined distance;
Preparing a culvert-connecting steel structure for prevention of flooding of a city having a length shorter than a distance between the first city flooding prevention culvert and the second city flooding prevention culvert;
Placing the steel structure for culvert connection for prevention of urban flooding prevention between the first city flooding prevention culvert and the second city flooding prevention culvert;
A plurality of through holes of a main flange of a main steel structure of a culvert-connecting steel structure for city flooding prevention are inserted into a plurality of anchor bolts provided at one end of the first city flooding prevention culvert, Contacting one end of the culvert for prevention of flooding;
Fixing the main steel structure to the first urban flooding prevention culler by fastening a plurality of nuts to a plurality of anchor bolts of the first urban flooding prevention culvert;
A plurality of through holes of an extension flange of the extended steel structure are inserted into a plurality of anchor bolts provided at one end of the second urban flooding prevention culvert to move an extended steel structure slidably provided at one end of the main steel structure, Contacting the extending flange to one end of the second city flooding prevention culvert; And
And fixing the extended steel structure to the second urban flooding prevention culler by fastening a plurality of nuts to a plurality of anchor bolts of the second urban flooding prevention culvert,
The culvert-connecting steel structure for preventing flooding of the city is provided between one end of the main steel structure and an extending flange of the extended steel structure and includes a plurality of elongated length adjusting members for moving the extended steel structure to the main steel structure, / RTI >
Wherein each of the plurality of extension length adjusting members comprises:
A nut member installed at one end of the main steel structure;
A holding member installed on an extension flange of the extended steel structure;
A jack bolt whose one end is rotatably inserted into the holding member and the other end is inserted into the main steel structure by being fastened to the nut member; And
And a projecting portion provided on the jack bolt,
Wherein the extending flange is brought into contact with one end of the second urban flooding prevention culvert by rotating the projecting portion of the plurality of extension length adjusting members to move the extended steel structure, . The method according to claim 1,
The main steel structure includes:
And a main body having a cross section corresponding to a cross section of the first city flooding prevention culvert,
Wherein the main flange is provided at one end of the main body, and the main flange is provided at one end of the main body. 3. The method of claim 2,
The extended steel structure,
And a sliding body having a section corresponding to the main body of the main steel structure,
Wherein the extension flange is provided at one end of the sliding body. ≪ RTI ID = 0.0 > 18. < / RTI > delete delete

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