KR102268423B1 - Precaste Bridge - Google Patents

Abstract

According to the present invention, the steel pipe foundation 100; a lower precast girder 200 mounted on the steel pipe foundation 100; and an upper precast girder 300 mounted on the lower precast girder 200; a lower tension member 410 for coupling the steel pipe foundation 100 and the lower precast girder 200 to each other; and an upper tension member 420 for coupling the lower precast girder 200 and the upper precast girder 300 to each other.
According to the present invention, there is an effect that the precast bridge can be constructed in a short period of time by minimizing on-site construction.

Description

Precast bridge and construction method of bridge using same {Precaste Bridge}

The present invention relates to the field of civil engineering and construction, and to a precast bridge. More specifically, a precast bridge and a bridge construction method using the steel pipe foundation and precast girder to facilitate the construction of the bridge, and to ensure the structural safety of the bridge while lowering the difficulty of on-site construction. is about

For the construction of small-scale bridges such as walkways constructed on the upper part of a mountain or river, a method of constructing a girder manufactured by a precast method on the upper part of the foundation is used.

However, in the conventionally presented precast concrete girder bridge, the invention of technology for the construction of long-span bridges was mainly, and there is no technology for small-scale bridges that can be completed in a short period of time without considering the large use load. .

The list of prior art related to the construction method of the conventional precast bridge is as follows.

-Korea Registered Patent 10-1283535

-Korea Registered Patent 10-1546951

-Korea Registered Patent 10-0500382

As described above, the object of the present invention is as a precast method for the construction of a small-scale bridge that has not been considered in the prior art, and an object of the present invention is to provide a precast bridge that is easy to construct and can be completed in a short period of time, and It relates to the construction method of the used bridge.

Another object of the present invention relates to a precast bridge capable of securing the simplicity of construction and structural safety through the coupling of each member using a tension member, and a construction method of the bridge using the same.

According to one aspect of the invention, the steel pipe foundation 100; a lower precast girder 200 mounted on the steel pipe foundation 100; and an upper precast girder 300 mounted on the lower precast girder 200; a lower tension member 410 for coupling the steel pipe foundation 100 and the lower precast girder 200 to each other; and an upper tension member 420 for coupling the lower precast girder 200 and the upper precast girder 300 to each other.

In this case, a mounting groove 210 into which the head of the steel pipe foundation 100 is introduced is formed on the lower surface of the lower precast girder 200 , and the lower tension member 410 is introduced into the lower precast girder 200 . A first through hole 220 is formed, and the upper surface of the lower precast girder 200 has a first fixing groove in which the head of the lower tension member 410 introduced through the first through hole 220 is fixed. It may be a precast bridge, characterized in that 230 is formed.

In addition, a second through hole 310 through which the upper tension member 420 is introduced is formed in the upper precast girder 300 , and the second through hole 310 is formed in the upper surface of the upper precast girder 300 . It may be a precast bridge, characterized in that the second fixing groove 320 in which the head of the upper tension member 420 introduced through the is fixed is formed.

In addition, the lower surface of the upper precast girder 300 is formed with a working groove 330 recessed toward the top, wherein the working groove 330 is formed in a position corresponding to the first fixing groove (230) It may be a precast bridge with

According to another aspect of the present invention, the first step of forming the steel pipe foundation 100 (S100); a second step (S200) of installing a plate 500 for concrete pouring in the hollow 110 of the steel pipe foundation 100; A third step (S300) of pouring concrete into the hollow 110 and embedding the lower end of the lower tension member 410 in the concrete to be poured into the hollow 110; and a fourth step of mounting the lower precast girder 200 on the steel pipe foundation 100 and fixing the head of the lower tension member 410 in the first fixing groove 230 (S400); However, there is provided a method of constructing a precast bridge, characterized in that the lower end of the upper tension member 420 is buried in the lower precast girder 200 .

In this case, the plate for concrete pouring 500 includes a plate member 510 used as a lower formwork for concrete to be poured into the hollow 110; and a fixing member 520 for fixing the plate member 510 to a predetermined position in the hollow 110, wherein one end of the fixing member 520 is coupled to the plate member 510 and the other end may be a method of constructing a precast bridge characterized in that it is coupled to the upper end of the steel pipe foundation 100 .

In addition, the other end of the fixing member 520 may be a method of constructing a precast bridge, characterized in that the hook mounted on the upper end of the steel pipe foundation (100).

In addition, the third step (S300), a position fixing cap installation step (S310) of installing a position fixing cap 600 for fixing the position of the upper end of the lower tension member 410 on the steel pipe foundation 100; and a position fixing cap removal step (S320) of removing the position fixing cap 600 after curing of the concrete poured into the hollow 110 is completed (S320); It can be a method of constructing a precast bridge comprising a; have.

In addition, the position fixing cap 600 is a body 610 fixed to the top of the steel pipe foundation 100; And a position fixing part 620 for fixing the position of the upper end of the lower tension member 410; including, wherein the position fixing part 620 is a grid-type plate 621 formed on the upper surface of the main body 610; and a restraining member 622 for restraining the upper end of the lower tension member 410 passing through the grid plate 621; it may be a method of constructing a precast bridge comprising a.

In addition, a fifth step of mounting the upper precast girder 300 on the upper part of the lower precast girder 200 and fixing the head of the upper tension member 420 in the second fixing groove 320 . (S500); may be a method of constructing a precast bridge, characterized in that it further comprises.

According to the present invention, there is an effect that the precast bridge can be constructed in a short period of time by minimizing on-site construction.

According to the present invention, there is an effect that can secure the simplicity and structural safety of the precast bridge construction through the coupling of each member using the tension member.

1 is a cross-sectional view of a precast bridge according to an embodiment of the present invention.
Figure 2 is a cross-sectional view of a precast bridge according to another embodiment of the present invention.
3 to 12 are views showing a construction method of a precast bridge according to an embodiment of the present invention.
13 is a view showing a method of fixing the position of the lower tension member during concrete curing in the construction method of the precast bridge according to an embodiment of the present invention.
14 is a view showing the structure of a position fixing cap according to an embodiment of the present invention.
15 is a view showing a method of installing a plate for pouring concrete according to an embodiment of the present invention.

An embodiment of the precast bridge according to the present invention and the construction method of the bridge using the same will be described in detail with reference to the accompanying drawings, and in the description with reference to the accompanying drawings, the same or corresponding components are given the same drawing numbers and a redundant description thereof will be omitted.

In addition, terms such as first, second, etc. used below are merely identification symbols for distinguishing the same or corresponding components, and the same or corresponding components are limited by terms such as first, second, etc. no.

In addition, in the contact relationship between each component, the term "coupling" does not mean only the case where each component is in direct physical contact with each other, but another component is interposed between each component, so that the component is in the other component. It should be used as a concept that encompasses even the cases in which each is in contact.

The present invention relates to a precast bridge and a method of constructing a bridge using the same.

The precast bridge according to an embodiment of the present invention is a steel pipe foundation 100, a lower precast girder 200 mounted on the steel pipe foundation 100, and an upper precast girder mounted on the lower precast girder 200. 300 (FIG. 1).

The steel pipe foundation 100 is formed of a hollow tube-shaped steel column.

In addition, the precast bridge according to an embodiment of the present invention has a lower tension member 410 and a lower precast girder 200 and an upper precast girder 300 for coupling the steel pipe foundation 100 and the lower precast girder 200 . ) may further include an upper tension member 420 for coupling.

The upper tension member 420 and the lower tension member 410 are made of a plurality of steel wires or rods, and provide a bonding force to the precast girder and the steel pipe foundation 100 .

On the lower surface of the lower precast girder 200 of the precast bridge according to an embodiment of the present invention, a mounting groove 210 into which the head of the steel pipe foundation 100 is introduced is formed (FIG. 1).

Accordingly, it is possible to easily perform the installation of the lower precast girder 200 on the steel pipe foundation 100 in the construction of the precast bridge.

In addition, the lower precast girder 200 is formed with a first through hole 220 through which the lower tension member 410 is introduced, and the upper surface of the lower precast girder 200 is introduced through the first through hole 220 . A first fixing groove 230 in which the head of the lower tension member 410 is fixed may be formed (FIG. 1).

In addition, a second through hole 310 through which the upper tension member 420 is introduced is formed in the upper precast girder 300 , and the upper surface of the upper precast girder 300 is introduced through the second through hole 310 . A second fixing groove 320 in which the head of the upper tension member 420 is fixed may be formed (FIG. 1).

Accordingly, the construction of the bridge can be completed only by stacking the pre-fabricated lower precast girder 200 and the upper precast girder 300 and fixing the lower tension member 410 and the upper tension member 420 by tension.

After the fixing operation is completed, the first fixing groove 230 and the second fixing groove 320 are filled with the finished concrete.

It is preferable to use non-shrinkable concrete as the finishing concrete.

On the lower surface of the upper precast girder 300 of the precast bridge according to an embodiment of the present invention, a working groove 330 recessed toward the top is formed, and the working groove 330 is in the first fixing groove 230 . It may be formed at a corresponding position (FIG. 1).

Accordingly, the maintenance work of the bridge after construction can be performed smoothly without destructive work.

The manager uses the space formed by the work groove 330 to easily check the tension state of the lower tension material 410 and the finishing condition of the finished concrete filling the first anchoring groove 230 in which the lower tension material 410 is fixed. It is possible to establish a maintenance plan necessary for bridge management.

Hereinafter, a method for constructing a precast bridge according to an embodiment of the present invention will be described.

The method of constructing a precast bridge according to the present invention includes a first step (S100) of forming a steel pipe foundation 100, a second step of installing a plate 500 for concrete pouring in the hollow 110 of the steel pipe foundation 100 Step (S200), the third step (S300) of pouring concrete into the hollow 110 and burying the lower end of the lower tension member 410 in the concrete to be poured into the hollow 110, the lower precast girder 200 A fourth step (S400) of fixing the head of the lower tension member 410 to the first fixing groove 230 while mounting the steel pipe foundation 100 on the upper part (S400) and the upper precast girder 300 are mounted on the lower precast girder 200 ) and a fifth step (S500) of fixing the head of the upper tension member 420 to the second fixing groove 320 as well as mounting on the upper part (FIGS. 3 to 11).

In this case, the lower precast girder 200 is manufactured in a state in which the lower end of the upper tension member 420 is embedded.

The plate 500 for concrete pouring of the second step (S200) is a member for pouring concrete only in the upper space of the hollow 110 of the steel pipe foundation 100, and is used as a lower formwork of the concrete poured into the hollow 110. It includes a plate member 510 and a fixing member 520 for fixing the plate member 510 to a predetermined position in the hollow 110 ( FIG. 4 ).

In this case, one end of the fixing member 520 is coupled to the plate member 510 , and the other end is coupled to the top of the steel pipe foundation 100 . The other end of the fixing member 520 may be formed in the shape of a hook mounted on the upper end of the steel pipe foundation (100).

Accordingly, it is possible to pour concrete only in a certain space above the hollow 110 .

The third step (S300) is a position fixing cap installation step (S310) of installing a position fixing cap 600 for fixing the position of the upper end of the lower tension member 410 on the steel pipe foundation 100, and pouring in the hollow 110 It may include a position fixing cap removal step (S320) of removing the position fixing cap 600 after the curing of the concrete is completed.

Until curing of the concrete filled in the hollow 110 is completed, the lower tension member 410 is not provided with a supporting force to maintain an erected state, so using the position fixing cap 600, the lower tension member 410 of the Provides support for maintaining a standing state (FIG. 13).

The position fixing cap 600 may include a position fixing part 620 for fixing the position of the upper end of the main body 610 and the lower tension member 410 fixed to the upper part of the steel pipe foundation 100 ( FIGS. 13 and 14 ). ).

The body 610 may be formed in a cylindrical shape that can surround the outer circumferential surface of the steel pipe base 100 . The body 610 may be directly coupled to the steel pipe foundation 100 using a predetermined coupling member, and in another method is mounted on the support part 120 formed on the outer surface of the steel pipe foundation 100 to the steel pipe foundation 100 . It is also possible to combine with

The position fixing unit 620 may include a lattice plate 621 formed on the upper surface of the body 610 and a restraining member 622 for restraining the upper end of the lower tension member 410 penetrating the lattice plate 621 . (Fig. 14).

In addition, the position fixing cap 600 may include an inlet hole 630 through which a concrete pouring hose is introduced. The inlet hole 630 is the main body 610 side

It is possible to fix the upper end of the lower tension member 410 formed in various positions by using the lattice plate 621 . That is, it is possible to secure optimal structural safety according to the size of the bridge to be constructed by arbitrarily adjusting the formation position of the lower tension member 410 as in the first and second embodiments.

The method of constructing a precast bridge according to an embodiment of the present invention may further include a sixth step (S600) of installing the handrail 700 on the upper precast girder 300 after the fifth step (S500). can be (Fig. 12).

Since the above has only been described with respect to some of the preferred embodiments that can be implemented by the present invention, the scope of the present invention as noted should not be construed as being limited to the above embodiments, and It will be said that the technical idea and the technical idea with the root are all included in the scope of the present invention.

100: steel pipe base
200: lower precast girder
300: upper precast girder
400: tension material
500: plate for pouring concrete
600: position fixing cap
700: handrail

Claims (10)

In the method of constructing a precast bridge,
The precast bridge is
steel pipe foundation 100;
a lower precast girder 200 mounted on the steel pipe foundation 100; and
Including; an upper precast girder 300 mounted on the lower precast girder 200
a lower tension member 410 for coupling the steel pipe foundation 100 and the lower precast girder 200; and
Including; and an upper tension member 420 for coupling the lower precast girder 200 and the upper precast girder 300
A mounting groove 210 into which the head of the steel pipe foundation 100 is introduced is formed on the lower surface of the lower precast girder 200,
A first through hole 220 into which the lower tension member 410 is introduced is formed in the lower precast girder 200,
A first fixing groove 230 in which the head of the lower tension member 410 introduced through the first through hole 220 is fixed is formed on the upper surface of the lower precast girder 200,
A second through hole 310 through which the upper tension member 420 is introduced is formed in the upper precast girder 300 ,
A second fixing groove 320 in which the head of the upper tension member 420 introduced through the second through hole 310 is fixed is formed on the upper surface of the upper precast girder 300,
A first step (S100) of forming the steel pipe foundation (100);
a second step (S200) of installing a plate 500 for concrete pouring in the hollow 110 of the steel pipe foundation 100;
A third step (S300) of pouring concrete into the hollow 110 and embedding the lower end of the lower tension member 410 in the concrete to be poured into the hollow 110; and
A fourth step (S400) of mounting the lower precast girder 200 on the steel pipe foundation 100 and fixing the head of the lower tension member 410 in the first fixing groove 230; including,
The lower end of the upper tension member 420 is embedded in the lower precast girder 200,
The plate 500 for pouring concrete,
a plate member 510 used as a lower formwork of concrete to be poured into the hollow 110; and
A fixing member 520 for fixing the plate member 510 to a predetermined position in the hollow 110; including,
One end of the fixing member 520 is coupled to the plate member 510, and the other end is coupled to the top of the steel pipe foundation 100,
The third step (S300) is,
A position fixing cap installation step (S310) of installing a position fixing cap 600 for fixing the position of the upper end of the lower tension member 410 on the steel pipe foundation 100; and
and a position fixing cap removal step (S320) of removing the position fixing cap 600 after curing of the concrete poured into the hollow 110 is completed;
The position fixing cap 600 is
a body 610 fixed to the top of the steel pipe foundation 100; and
A position fixing part 620 for fixing the position of the upper end of the lower tension member 410; including,
The position fixing unit 620 is
a lattice plate 621 formed on the upper surface of the body 610; and
A restraining member 622 for restraining the upper end of the lower tension member 410 passing through the lattice plate 621;
A method of constructing a precast bridge, comprising:
According to claim 1,
The other end of the fixing member (520) is a method of constructing a precast bridge, characterized in that the hook mounted on the top of the steel pipe foundation (100).
3. The method of claim 2,
A fifth step (S500) of mounting the upper precast girder 300 on the upper part of the lower precast girder 200 and fixing the head of the upper tension member 420 in the second fixing groove 320 (S500) );
Method of constructing a precast bridge, characterized in that it further comprises.
4. The method of claim 3,
On the lower surface of the upper precast girder 300, a working groove 330 recessed toward the upper portion is formed,
The method of constructing a precast bridge, characterized in that the working groove (330) is formed at a position corresponding to the first fixing groove (230).


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