KR101297699B1 - Construction method for prestressed cft girder using turn-over devie - Google Patents

Abstract

PURPOSE: A construction method of a prestressed concrete filled steel tube girder using a turnover device is provided to shorten a construction period by introducing prestress during the installation process of a girder. CONSTITUTION: A construction method of a prestressed concrete filled steel tube girder using a turnover device comprises the following steps: installing a turnover device (20) in the top of an abutment (10) and mounting a circular steel tube (30) on the turnover device; fixing the circular steel tube using a temporary supporting unit (40) in order to prevent the circular steel tube from rotating; pouring and curing concrete (50) into the circular steel tube to produce a concrete filled steel tube (CFT) girder (100) deflected by the self-weight; and turning over the CFT girder through 180 degrees using the turnover device.

Description

Construction method for prestressed CFT girder using turn-over devie}

The present invention relates to a method for constructing a pre-stressed concrete filled steel tube (CFT) girder using a turnover device installed on the upper part of a bridge, and more specifically, a pair of turnover devices in which a bridge is located adjacent to the bridge. The prestressed CFT girder using a turnover device that can easily introduce prestress to the CFT girder by installing steel pipes on the turnover device in the state of being installed on the upper part of the pipe, casting and curing concrete in the steel pipes, and then turning over. It is about a construction method.

CFT is a structure made by filling concrete inside the steel pipe, and not only has the advantages of both steel and concrete, but also has the effect that the steel pipe restrains the concrete, thereby improving the rigidity of the member. In addition, the steel pipe can also serve as a permanent formwork, it is possible to omit complex formwork, it is possible to significantly reduce the manpower and time.

This CFT structure has been mainly applied to pillars in which the compressive force acts in the axial direction. Recently, it has also been applied to girders which are horizontal members of the bridge. However, unlike girders, it is not easy to construct a structurally efficient member because the type and size of the stresses vary depending on the position on the longitudinal direction.

Furthermore CFT girders are formed by casting, curing the concrete 50 to the steel pipe inner then through the steel pipe to the top of the abutment or pier in the field, because the weight is very large, the weight of the steel pipe as shown in Fig. 1 (M _t ) And the self-weight M _c of the concrete to form a member to be drooped downward. Particularly, in the case of concrete, since the steel is not subjected to the curing until the curing is completed, the steel pipe bears the weight of the steel pipe and the concrete while the concrete is being cured, and the deflection increases. This form of CFT girder is primarily disadvantageous for load-bearing girders acting downwardly perpendicular to the longitudinal direction of the girder.

In order to solve this problem, in the 'filled steel pipe girder and method of manufacturing the reinforced concrete flexural strength of publication number 10-2010-0063538' is used to tension the tension material that was inserted in advance after the curing of concrete have.

And in the 'steel pipe composite girder' of the registration number 10-0945050, as shown in Figure 2, the tension of the tension member 160 and the lower partition plate 132 by partitioning the cross section of the girder only the inner concrete 150 I am using the method of charging.

Although the girder according to the prior arts is a structure capable of efficiently responding to the force acting on the girder, the tension material used for the girder is not only expensive but also not easy to tension the tension material. Since the girder of 10-0945050 is formed of many members such as arc members 110a and 110b, lower plate 132, and cover 180, it is cumbersome to manufacture each member and to assemble each member to form a steel pipe. .

The present invention is to solve the problems of the prior art as described above, and does not require a separate work to tighten the steel wire or the installation of the reinforcing member, so that prestress can be introduced into the girder simply during the installation process of the girder, construction The purpose is to provide a method of constructing a prestressed CFT girder using a turnover device, which can be very easy and cost-effective.

According to a preferred embodiment of the present invention for solving the above problems, in the construction method of the CFT girder installed in the bridge, a) installing a turnover device on the top of the shift; b) mounting a round steel pipe on the turnover device; c) fixing the round steel pipe with temporary supporting means so that the round steel pipe does not rotate; d) manufacturing a CFT girder which sag caused by self-weight by filling and curing concrete in the circular steel pipe; e) rotating the CFT girder by 180 ° using a turnover device; It is made, including, wherein the temporary support means is installed before step c) and removed after step d), there is provided a construction method of prestressed CFT girder using a turnover device.

According to another embodiment of the present invention, the turnover device is a pair of rollers in contact with the outer surface of the circular steel pipe and formed symmetrically with respect to the longitudinal direction of the circular steel pipe, using a turnover device A method of constructing a prestressed CFT girder is provided.

According to another embodiment of the present invention, the circular steel pipe is further attached to the horizontal beam wing for mounting the upper plate, and in step b) to mount the circular steel pipe so that the horizontal beam wing is located below the circular steel pipe, In the step c), the cross beam wing portion is fixed to the temporary support means, there is provided a construction method of prestressed CFT girders using a turnover device.

According to another embodiment of the present invention, a ring member is fitted to the outer circumferential surface of the circular steel pipe, and the transverse wing portion is attached to the circular steel pipe via the ring member, the prestress using a turnover device A construction method of the CFT girder is provided.

According to still another embodiment of the present invention, a method for constructing a prestressed CFT girder using a turnover device, characterized in that the upper deck is further attached to the cross beam wing portion.

According to another embodiment of the present invention, the temporary support means is a method of constructing a prestressed CFT girder using a turnover device, characterized in that the section member is temporarily installed in the alternating.

The construction method of the CFT girder according to the present invention does not require a separate work of tensioning the steel wire or the installation of the reinforcing member in order to introduce the prestress to the CFT girder, so that the prestress can be introduced simply during the installation process of the girder. And easy construction.

In addition, the turnover device for introducing prestress into the CFT girder is economical because it can be utilized as a component of the chair apparatus without having to remove it even after the turnover operation is completed.

1 is an explanatory diagram conceptually illustrating a problem of a conventional CFT girder.
2 is a cross-sectional view of a 'steel bridge girder for bridges' as the prior art.
3 is an explanatory view showing in sequence the construction method of the prestressed CFT girder using the turnover device of the present invention.
Figure 4 is a perspective view when the ring member is formed in a circular steel pipe used in the present invention.
5 is a perspective view showing various embodiments of the temporary support means used in the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, however, it is to be understood that the present invention is not limited to the disclosed embodiments.

The greatest feature of the present invention is that prestress can be introduced during the construction of the girder on the upper part of the bridge without going through a separate manufacturing process to introduce the prestress to the CFT girder. This eliminates the need for a separate workshop for fabricating the prestressed girders and saves air and money. In addition, since the shape of the girder and the distribution of stress naturally occurring by the manufacturing process are used, it is possible to easily introduce prestress without complicated equipment.

3 shows a construction method of the prestressed CFT girder 100 using the turnover device of the present invention in order.

Such a construction method includes a construction method of a CFT girder installed in a bridge, the method comprising: a) installing a turnover device 20 on an upper portion of an alternating portion 10; b) mounting the round steel pipe 30 to the turnover device 20; c) fixing the circular steel pipe 30 with temporary support means 40 so that the circular steel pipe 30 does not rotate; d) manufacturing a CFT girder (100) in which sag is caused by its own weight by filling and curing concrete (50) in the circular steel pipe (30); e) rotating the CFT girder 100 by 180 ° using a turnover device; .

Hereinafter, each step will be described in detail.

a) installing a turnover device 20 on top of the shift 10;

The turnover device 20 is respectively installed on the upper part of the shift where both ends of the girder will be located.

In describing the present invention, the case where the CFT girder is constructed on the upper part of the shift will be described as an example. However, when the present construction method is applied to a bridge having a multi-span, the CFT girder may be constructed on the upper part of the pier. . Therefore, hereinafter referred to as "shift," including both the "shift and pier".

The turnover device 20 is a device for rotating 180 ° so that the CFT girder, which has been introduced with prestress, is placed in a state capable of receiving force efficiently.

The turnover device 20 is in contact with the outer surface of the circular steel pipe 30 mounted on the turnover device 20 in step b) to be described later, and formed symmetrically with respect to the longitudinal direction of the circular steel pipe 30. It consists of a pair of rollers.

The configuration of the turnover device 20, while allowing the circular steel pipe 30 to be rotated relative to the center of the cross section, it does not move in the width direction of the bridge. In addition, even after the turnover operation is completed, it can be used as a component of the teaching device, so there is no need to remove it separately.

b) mounting the round steel pipe 30 to the turnover device 20;

When the installation of the turnover device for the upper portion such as the shift 10 is completed, the end of the circular steel pipe 30 is mounted on the turnover device 20. As the circular steel pipe, a circular steel pipe having a general shape for forming a CFT girder is used, but the inner portion of the circular steel pipe is improved to improve the integrity of the concrete filled into the circular steel pipe 30 and the slab concrete poured into the upper circular steel pipe. Studs (not shown) may be further configured as side and outer surfaces.

The circular steel pipe 30 may be further attached to the horizontal beam wing portion 400 for mounting the top plate. The cross beam wing portion 400 attached to each of the circular steel pipe 30 is connected to each other after the prestressed CFT girder is constructed by the construction method of the present invention to serve as a cross beam of the bridge.

When using the circular steel pipe 30 is attached to the cross beam wing portion 400 in this way, since the attachment work of the cross beam wing portion 400 is made in the factory can form a girder of stable quality, in the field The reduction of the work, especially the height, can shorten the air and contribute to improved stability.

The cross beam wing portion 400 is mounted to the lower portion of the circular steel pipe 30 so as to mount the circular steel pipe 30, after the CFT girder 100 is rotated 180 ° by the following step e) of the CFT girder Make sure it's at the top.

An upper plate deck (not shown) may be further attached to the cross beam wing portion 400. The deck for deck is connected to each other after the prestressed CFT girder is constructed by the construction method of the present invention to form a slab of the bridge.

When the deck for the upper plate is further formed, the field work is further reduced than when only the cross beam wing portion 400 is attached to the circular steel pipe 30.

When the cross beam wing portion 400 and the upper deck are previously attached to the circular steel pipe 30, the loads of the cross beam wing portion 400 and the upper deck are loaded with the round steel pipe 30 and later the round steel pipe 30. Along with the load of the concrete to be filled into it acts as a load for the introduction of the prestress it is possible to introduce a larger prestress.

However, the horizontal beam wing 400 and the deck for deck is preferably installed in advance within the range that does not interfere with the rotation of the CFT girder in step e) to be made later.

Since the concentrated load is generated in the portion to which the cross beam wing 400 of the circular steel pipe 30 is attached, as shown in FIG. 4, the ring member 31 may be inserted into and reinforced on the outer circumferential surface of the circular steel pipe 30. have. In this case, the cross beam wing portion 400 is attached to the circular steel pipe 30 via the ring member 31.

c) fixing the circular steel pipe 30 with temporary support means 40 so that the circular steel pipe 30 does not rotate;

Since the circular steel pipe 30 is mounted on the turnover device 20 and is easy to rotate, temporary supporting means to prevent the circular steel pipe 30 from rotating while concrete is placed and cured in the circular steel pipe 30. 40 to fix the circular steel pipe (30).

The temporary support means 40, as shown in (a) of Figure 5, may be a device that prevents the rotation of the roller by fixing the two axes of the roller forming the turnover device 20, Figure 5 As shown in (b), it may be a flexible linear member that binds the circular steel pipe 30 to prevent the circular steel pipe 30 from moving by friction.

However, in order to firmly fix the circular steel pipe 30, the temporary support means 40, as shown in Figure 3 (c), it is preferable that the temporary steel member temporarily installed in the alternating (10). The shaped steel member is fixed to the circular steel pipe 30 by being bolted to the circular steel pipe (30).

A separate bolt may be formed in the circular steel pipe 30 for bolting with the steel member, but in the case of using the circular steel pipe 30 having further studs formed on the outer surface, the stud may be used as the bolt. . And when using the circular steel pipe 30 is further attached to the cross beam wing portion 400 can be fixed to the circular steel pipe 30 by bolt-joining the cross beam wing portion 400 with the section steel member.

When bolt-joining the steel member and the circular steel pipe 30, as well as the fixing process of the circular steel pipe 30, the process of loosening the fixed can also be made easily.

The temporary support means 40 need only be installed before this step.

d) manufacturing a CFT girder (100) in which sag is caused by its own weight by filling and curing concrete (50) in the circular steel pipe (30);

Since the circular steel pipe 30 is in a state where both ends are simply mounted, deflection occurs due to its own weight. When the concrete 50 is filled in the inside of the circular steel pipe 30, a larger load acts to increase the deflection, and the CFT girder sagging down by curing the concrete 50 in such a state as the deflection occurs. 100 will be formed. In the case of using the circular steel pipe 30 to which the horizontal beam wing 400 and the upper deck are attached in advance, the weight of the horizontal beam wing 400 and the upper deck is also to increase the deflection.

e) rotating the CFT girder 100 by 180 ° using a turnover device;

The CFT girder 100 made through the step d) is formed to have a downward deflection due to its own weight, and this form of the CFT girder 100 acts in a downward direction, that is, a direction perpendicular to the direction in which the structural member is placed. It is a disadvantage for girders that are primarily given strength to do so.

When the CFT girder 100 having a deflection downward due to its own weight is rotated 180 ° above the turnover device 20 by releasing the temporary support means 40, the CFT girder having the camber (upward deflection) 100 is formed. Since the camber of the CFT girder 100 is formed in the opposite direction to the load acting on the girder, the camber acts as a prestress to effectively receive the load.

This makes it possible not only to apply the CFT girder 100 to the long span, but also to reduce the thickness of the circular steel pipe determined by considering both the deflection due to the weight of the CFT girder and the load acting upon the use of the bridge. It is economical to save money.

Since the turnover device 20 is composed of a pair of rollers symmetrically positioned with respect to the longitudinal direction of the CFT girder 100, the frictional force hardly acts on the CFT girder 100 while the roller rotates. Thus, the operation of rotating the CFT girder 100 may be easily performed.

The temporary support means 40 is unnecessary when the bridge is used, and thus is removed after the fixing is released. However, after the CFT girder 100 is constructed in accordance with the construction method according to the present invention, the temporary support means 40 may be utilized as a joining means of the permanent girder when subsequent construction of the bridge is performed according to the general method.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the scope of the invention is not limited to the disclosed embodiments, but, on the contrary, It is obvious that it will be possible to carry out various modifications thereof. It is therefore intended that such modifications are within the scope of the invention as set forth in the claims.

10: shift 20: turnover device
30: round steel pipe 31: ring member
40: temporary support means 50: concrete
100: CFT girder 400: cross beam wing

Claims (6)

In the construction method of the CFT girder installed in the bridge,
a) installing a turnover device 20 on top of the shift 10;
b) mounting the round steel pipe 30 to the turnover device 20;
c) fixing the circular steel pipe 30 with temporary support means 40 so that the circular steel pipe 30 does not rotate;
d) manufacturing a CFT girder (100) in which sag is caused by its own weight by filling and curing concrete (50) in the circular steel pipe (30);
e) rotating the CFT girder 100 by 180 ° using a turnover device;
It comprises, but the temporary support means (40) is installed before step c) and characterized in that removed after step d), the construction method of prestressed CFT girder using a turnover device. The method of claim 1,
The turnover device 20 is a pair of rollers in contact with the outer surface of the circular steel pipe 30 and formed symmetrically with respect to the longitudinal direction of the circular steel pipe 30, frist using a turnover device Construction method of rest CFT girder. The method of claim 1,
The circular steel pipe 30 is further attached to the horizontal beam wing portion 400 for mounting the top plate, and in step b) the circular beam pipe 400 is located in the lower portion of the circular steel pipe 30 Mounting (30), characterized in that in the step c) the cross beam wing 400 is fixed to the temporary support means 40, the construction method of prestressed CFT girder using a turnover device. The method of claim 3,
Ring member 31 is fitted to the outer circumferential surface of the circular steel pipe 30, the horizontal wing blade 400 is characterized in that attached to the circular steel pipe 30 via the ring member 31, the turn Construction method of prestressed CFT girder using over device. The method of claim 3,
The horizontal beam wing portion 400 is characterized in that the top deck is further attached, the construction method of the prestressed CFT girder using a turnover device. The method of claim 1,
The temporary support means (40) is a method of constructing a prestressed CFT girder using a turnover device, characterized in that the section member is temporarily installed in the alternating (10).

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