KR20130040419A - Construction technique of steel box girder and this - Google Patents

Abstract

PURPOSE: A steel box girder and a construction method thereof are provided to easily construct a bridge in a condition in which a temporarily installed vent is not installed. CONSTITUTION: A steel box girder comprises a side span steel box girder(110) and a main span steel box girder(120). A first mounting groove(111) is formed at both ends of the side span steel box girder. A second mounting groove(121) is formed at both ends of the main span steel box girder. A plurality of steel box girders(100) transferred as a small block is assembled as a large block of a side span unit and a main span unit of a bridge pier(30). The side span steel box girder is constructed along a side span. Both ends of the main span steel box girder are mounted on the side span steel box girder of both sides in order to construct a main span.

Description

Steel box girder and its construction method {CONSTRUCTION TECHNIQUE OF STEEL BOX GIRDER AND THIS}

The present invention relates to a temporary construction method of steel box girders, more specifically, it is possible to easily install the steel box girders for side spans and main spans even without installing a temporary vent (Bent) for support The present invention relates to a steel box girder and its construction method.

In general, bridges are elevated structures that can be constructed to cross rivers, lakes, straits, bays, canals, lowlands, or other traffic routes or structures.

Such bridges are classified into various types according to materials, structures, or manufacturing methods, and recently, girder bridges having excellent construction, maintenance, and strength have been constructed.

Conventional girder bridges, the lower structure consisting of bridges and alternating bridges, such as erected on the foundation portion, the girder provided in the longitudinal direction between the bridge and the pier or between the bridge and the alternator, and the upper side of the girder It is composed of an upper structure (slab), etc. installed to form a top plate.

However, in the conventional girder bridge, a temporary vent (Bent) is installed to install the girder of the main span, but in a case where a valley or a soft ground exists in the lower part of the girder installed in the main span, It is impossible to install or difficult.

Literature related to the present invention is Korean Patent Registration No. 10-0972884 (July 22, 2010), the document discloses a construction method of a semi-integrated bridge bridge in the form of a bridge.

An object of the present invention is to install the steel box girders on the main span in the state in which the side span steel box girders assembled in large blocks of the span unit on the site in the field, both ends of the main span steel box girders on both sides A steel box that can be easily combined with a side span steel box girder and a main span steel box girder even when no temporary vent is installed by combining it with the free end of the temporary side span steel box girder. To provide the girder and its construction method.

Steel box girders according to the present invention, the base portion is installed on the ground, the pier is installed on the base portion, and the steel box girder is installed on the upper end of the pier, the side span portion of both piers on the basis of the main span of the bridge piers And a plurality of side span steel box girders, which are hypothesized laterally, and a main span steel box girder that are horizontally hypothetically coupled to the main span of the piers, the both ends of which are coupled to one end of the side span steel box girders. Characterized in that.

Here, both ends of the side span steel box girders are formed with first seating grooves cut at right angles to an upper portion thereof, and both ends of the main span steel box girders are seated to correspond to the first seating grooves. It is preferable that two seating grooves are formed.

In addition, one end of the side span steel box girder is further provided with a gap adjusting member for pulling the one end of the main span steel box girder in close contact with the second seating groove is seated corresponding to the first seating groove. desirable.

In addition, the gap adjusting member is rotated in the vertical or horizontal, provided with a hydraulic cylinder is formed with a projection protrusion projecting at the lower end of the rod, respectively, the hydraulic cylinder is the second seating groove corresponding to the first seating groove It is rotated horizontally in the seated state, it can be towed in a state where the locking projection of the rod is located on the upper end of the steel box girder for the main span.

In addition, the side span steel box girders and the main span steel box girders it is preferable to form a large block of long length by continuously assembling a plurality of small blocks of short length.

On the other hand, the construction method of the steel box girder according to the present invention is a foundation for installing on the ground, the piers installed on the foundation, and the steel box girders installed on the top of the piers, the foundation for constructing the foundation on the ground Construction step, Pier construction step to form a pier at regular intervals in the base portion, and a plurality of steel box girders carried in small blocks (girder) to assemble the large block for the side span and main span length of the bridge Side step construction step of assembling step, the side span steel box girders along the side span of the piers, and when laying the main span steel box girders on the main span of the piers, both ends of the main span steel box girders are located on both sides It includes a main span construction step for coupling in a state that each seated in a shape corresponding to the free end of the steel box girders for the side span And a gong.

Here, after the side-span construction step further comprises the step of installing a spacing control member on one end of the steel box girder for the side span, after the main span construction step of the steel box girder for the side span using the spacing control member. It is preferable to further comprise the step of adjusting the distance between the both ends and the main span steel box girders.

The present invention can be constructed in the form of a large block of steel box girders in the field, it has the effect of providing ease of transport and shorten the construction period.

In addition, the steel box girders can be installed in a state in which the temporary vents are not installed, so that the bridge can be easily constructed even in a condition in which the temporary vents cannot be installed, and the construction cost can be reduced.

In addition, since both ends of the main span steel box girders can be coupled to both ends of the hypothetical side-span steel box girders, the safety of the steel box girders is secured.

1 is a view showing a process of hypothesizing the steel box girders for the main span in the steel box girders according to the present invention.
Figure 2 is a view showing a state in which both ends of the free end of the steel box girders for side spans and the main span steel box girders hypothesized in the steel box girders according to the present invention.
3 is a view illustrating a state in which both ends of the main span steel box girders are seated on the free ends of the side span steel box girders hypothesized by the steel box girders according to the present invention.
Figure 4 is a block diagram showing the construction step for the construction method of the steel box girder according to the present invention.

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

BRIEF DESCRIPTION OF THE DRAWINGS The advantages and features of the present invention and the manner of achieving it will become apparent with reference to the embodiments described in detail below with reference to the accompanying drawings.

The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art. To fully disclose the scope of the invention to those skilled in the art, and the invention is only defined by the scope of the claims.

In the following description, well-known functions or constructions are not described in detail since they would obscure the invention in unnecessary detail.

Hereinafter, a steel box girder according to the present invention with reference to the drawings.

1 is a view illustrating a process of installing a steel box girder (girder 120) for the main span, Figure 2 is a free end and both ends of the steel box girder (120) for the hypothetical side span steel box girder 110 It is a figure which shows this separated state.

3 is a view illustrating a state in which both ends of the main span steel box girder 120 are seated on the free end of the hypothetical side span steel box girder 110.

As shown in the drawing, the present invention includes a plurality of foundations 20 installed on the ground 10, a plurality of piers 30 installed on the foundation 20, and an upper end of the piers 30. In the steel box girder 100, which is composed of a steel box girder 110 for side spans and a steel box girder 120 for the main span.

Here, the foundations 20, after laying both sides of the ground 10 in the width direction adjacent to the river, lake, straits, bays, canals, lowlands, etc., the concrete is poured into the soil (10) The substructure is formed through the curing process.

Piers 30 are formed integrally with the upper portion of the foundation portion 20 to form one or a plurality of pillars on both sides of the ground 10 in the width direction adjacent to a river, a lake, a strait, a bay, a canal, a lowland, or the like. Form.

Here, the pier 30 may have various pillar shapes such as a circle, a square, and the like having a vertical length.

In addition, a section called a side span portion is formed between the pier 30 and the pier 30, and the pier 30 and the pier where rivers, lakes, straits, bays, canals, lowlands, etc. are located at the lower portion thereof. A section called the main span section is formed in a wide section of 30).

That is, the side span steel box girders 110 to be described later are installed at the upper end of the side span portions of the pier 30, and the main span steel box girders 120 are installed at the upper end of the main span portions of the pier 30.

In addition, the foundation parts 20 and the pier 30 may be installed by installing a separate formwork (not shown) on the upper portion of the base portion 20, and after curing concrete to the formwork. .

Here, the foundations 20 and the piers 30 may be reinforced with reinforcing bars in the formwork for strength reinforcement.

Since the base portion 20 and the pier 30 described above are to be constructed by a conventional construction method, it can be variously performed without being limited to the above-described method.

The side span steel box girders 110 and the main span steel box girders 120 are manufactured using a metal material, and have a square beam shape having a length in the longitudinal direction.

The side span steel box girders 110 and the main span steel box girders 120 are assembled in a large block form by connecting a plurality of small block steel box girders having 10 m to 13 m.

At both ends of the longitudinal direction of the steel box girder 110 for the side span, a first seating groove 111 cut at right angles is formed at an upper portion thereof.

The first seating groove 111 has a shape cut at right angles, and forms a portion to which the second seating groove 121 of the main span steel box girder 120 to be described below is seated.

Such a side span steel box girder 110 is horizontally hypothesized on the upper side of the side span portion of the pier 30 located on both sides around the main span portion of the pier 30.

At this time, the longitudinal end of the steel box girders 110 for the side span is extended in a predetermined length toward the main span portion is positioned in the form of a free end.

The steel box girders 120 for the main span described above are horizontally arranged on the upper ends of the main spans of the piers 30.

The main span steel box girder 120 is coupled in a state in which both ends in the longitudinal direction are correspondingly seated on both ends of the longitudinal span of the steel box girder 110 for the side span.

To this end, at both ends in the longitudinal direction of the main span steel box girder 120, a second seating groove is formed in the lower portion.

The second seating groove 121 has a shape cut at a right angle to correspond to the first seating groove 111 of the steel box girder 110 for the side span described above.

That is, the second seating groove 121 having an inverted "b" shape may be stably seated on the first seating groove 111 having a "b" shape.

At this time, the side span steel box girders 110 and the main span steel box girders 120 is the upper and lower ends to form the same plane horizontally.

Therefore, both longitudinal ends of the main span steel box girder 120 and one end of the longitudinal span of the side span steel box girder 110 where the construction is completed may be coupled in a stable state.

In addition, at one end in the longitudinal direction of the main span steel box girder 120, the engaging portion 122 may be provided on the upper side.

The locking portion 122, the locking projection 131a of the rod 131 to be described later is located on the upper end so that the traction can be made.

The side span steel box girders 110 and the main span steel box girders 120 may be provided with a bending preventing diaphragm 140 having a predetermined interval along the longitudinal direction.

Meanwhile, one end of the side span steel box girder 110 has a second seating groove 121 of the main span steel box girder 120 corresponding to the first seating groove 111 in a state where the main span steel box girder ( The gap adjusting member 130 may be further provided to pull one end of the 120 to be in close contact.

The gap adjusting member 130 may be installed as a hydraulic cylinder which is rotated in the vertical or horizontal direction and protrudes from the lower end of the rod 131 to protrude.

The hydraulic cylinder is rotated horizontally in a state in which the second seating groove 121 is correspondingly seated in the first seating groove 111.

In this case, the locking protrusion 131a protruding toward the lower end of the rod 131 may be towed in a state where the locking protrusion 131a is positioned at the upper end of the locking portion 122 of the steel box girder 120 for the main span.

Therefore, it is possible to prevent the play from occurring between the longitudinal end of the main span steel box girder 110 and the longitudinal end of the main span steel box girder 120.

Hereinafter, the construction method of the steel box girder according to the present invention with reference to the drawings as follows, and the same configuration as the above-described configuration will not be described repeatedly.

Figure 4 is a block diagram showing the construction step of the construction method of the steel box girder according to the present invention.

As shown, the construction method of the steel box girder according to the present invention is installed on the foundation portion 20, the pier 30 to be provided on the foundation portion 20, and the upper end of the pier 30 is installed on the ground In the steel box girder 100 to be formed, the foundation construction step (S100), pier construction step (S200), girder assembly step (S300), side-span construction step (S400), and the main span construction step (S500) .

First, in the basic construction step (S100), the ground on both sides 10 in the width direction adjacent to a river, a lake, a strait, a bay, a canal, a lowland, and the like.

Then, after the concrete is poured into the ground (10), it is cured for a predetermined time to complete the foundation 20.

In addition, in the foundation construction step (S100) in a state in which a separate formwork (not shown) is installed in the ground (10), the foundation can be used to cure after pouring concrete into the formwork.

In addition, in the basic construction step (S100), it is also possible to use a method of curing the reinforcement, such as reinforcing the interior of the formwork, after pouring concrete.

Next, in the pier construction step (S200) forms a pier 30 on the top of the foundation portion 20 constructed in the foundation construction step (S100).

Here, in the pier construction step (S200) in a state in which a separate formwork (not shown) is installed on the upper portion of the base portion 20, it can be used to cure after pouring concrete to the formwork.

In addition, in the pier construction step (S200), it is also possible to use a method of reinforcing the reinforcing bars and the like in the formwork and curing after pouring concrete.

Since the base portion 20 and the pier 30 described above are to be constructed by a conventional construction method, it can be variously performed without being limited to the above-described method.

Therefore, the bridge piers 30 integrally formed on the upper portion of the foundation 20 in the bridge construction step (S200) is the width direction both ground 10 adjacent to the river, lake, strait, bay, canal, lowlands, etc. It will form one or more pillars.

Next, in the girder assembly step (S300) carries a plurality of steel box girders (Girder) to the site in the form of a small block.

Here, the small block steel box girders can be carried in a length of 10m ~ 13m.

And, by connecting the longitudinal direction of the plurality of steel box girders (Girder) transported in the girder assembly step (S300), assembling in the form of large blocks of the side span and the main span unit of the piers 30.

In addition, the steel box girders (Girder) is divided into the side span and the main span, the main span steel box girders 120 may be assembled longer in the longitudinal direction than the steel box girders 110 for side spans.

Next, in the side-span construction step (S400) using the crane 40, the steel box girders 110 for side spans on the upper side of the side span portion of the pier 30 is laterally installed.

At this time, the side span steel box girders 110 are hypothesized at the upper end of the side span portion of the pier 30 located on both sides of the main span portion of the bridges 30.

Here, at both ends of the longitudinal direction of the steel box girder 110 for the side span is formed a first seating groove 111 cut in a right angle at the top.

On the other hand, after the side-span construction step (S400) may further comprise the step of installing the gap adjusting member 130 on the free end of the side box steel box girders 110.

Finally, the main span construction step (S500) is a steel box girder 120 for the main span using a crane, the hypothesis on the top of the main span of the piers 30.

At this time, both ends of the main span steel box girders 120 are coupled to each other in a shape corresponding to the free ends of the side span steel box girders 110, respectively, hypothesized on both sides.

On the other hand, after the main span construction step (S500) further comprises the step of adjusting the distance between the both ends of the side span steel box girder 110 and the main span steel box girder 120 using the gap adjusting member 130. can do.

Therefore, the longitudinal ends of the steel box girders 110 and the steel box girders 120 for the main span are not closely formed without gaps.

As a result, the present invention can hypothesize the steel box girder 100 in the form of a large block in the field, it has the effect of providing ease of transport and shorten the construction period.

In addition, the steel box girders 110 and the steel box girders 120 for the main span may be hypothesized in a state in which a temporary vent is not installed.

As a result, the bridge can be easily constructed even under conditions in which temporary construction vents cannot be installed, and the construction cost can be reduced.

In addition, since both ends of the main span steel box girders 120 are seated on both ends of the hypothetical side span steel box girders 110, the steel box girders have an effect of securing safety when combining. .

Although the embodiments of the steel box girder and the temporary construction method of the present invention have been described so far, it is obvious that various embodiments can be modified without departing from the scope of the present invention.

Therefore, the scope of the present invention should not be limited to the above-described embodiments, but should be determined by the scope of the appended claims and equivalents thereof.

It is to be understood that the foregoing embodiments are illustrative and not restrictive in all respects and that the scope of the present invention is indicated by the appended claims rather than the foregoing description, It is intended that all changes and modifications derived from the equivalent concept be included within the scope of the present invention.

10: ground 20: foundation
30: pier 40: crane
100: steel box girder 110: steel box girders for side span
111: first seating groove 120: steel box girders for main span
121: second seating groove 122: engaging portion
130: gap adjusting member 131: rod
131a: jamming

Claims (7)

In the base portion installed in the ground, the piers installed in the base portion, and the steel box girders provided at the upper end of the piers,
A plurality of steel box girders for side spans transversely installed in the side spans of both piers based on the main spans of the piers; And
And a steel box girder for the main span, which is horizontally arranged on the main span of the piers and coupled at both ends thereof in a state in which the two ends are seated corresponding to one end of the steel box girder for the side span.
The method of claim 1,
At both ends of the side span steel box girder, first seating grooves cut at right angles are formed at the top,
Steel box girders, characterized in that the second seating grooves are formed at both ends of the main span steel box girders to be seated corresponding to the first seating grooves.
The method of claim 2,
At one end of the side span steel box girder,
Steel box girders, characterized in that the gap is further provided with a gap adjusting member for pulling the one end of the steel box girder for the main span in close contact with the second seating groove is seated on the first seating groove.
The method of claim 3,
The gap adjusting member,
Is rotated vertically or horizontally, and provided with a hydraulic cylinder protruding the locking projections at the lower end of the rod, which is haunted,
In the hydraulic cylinder,
The steel box girders are horizontally rotated in a state in which the second seating grooves are correspondingly seated in the first seating grooves, and the hooking protrusion of the rod is towed in a state of being caught on the upper end of the steel box girder for the main span. .
The method of claim 1,
The steel box girders for the side span and the steel box girders for the main span,
Steel box girders characterized in that a large number of small blocks are continuously assembled to form a long block.
In the base portion installed in the ground, the piers installed in the base portion, and the steel box girders provided at the upper end of the piers,
Foundation construction step for constructing the foundation in the ground;
Pier construction step of forming a bridge at a predetermined interval in the base portion;
A girder assembly step of assembling a plurality of steel box girders carried in small blocks into large blocks having lengths for side spans and main spans of the piers;
A side span construction step of constructing side box steel box girders along the side spans of the piers; And
Main span construction step of coupling the steel box girders for main span to the main span of the piers, in which both ends of the main span steel box girders are respectively seated in a shape corresponding to one end of the side span steel box girders located on both sides Temporary construction method of the steel box girder comprising a.
The method according to claim 6,
After the side-span construction step,
Further comprising a step of installing a gap adjusting member on one end of the side span steel box girder,
After the main span construction step,
Temporary construction method of the steel box girder characterized in that it further comprises the step of adjusting the distance between both ends of the end of the steel box girder and the main span steel box girder using the gap adjusting member.

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