KR20040043261A - Hollow Type I Beam Composite Deck and Constructing Method thereof - Google Patents

Abstract

PURPOSE: An I-steel composite hollow floor plate is provided to lighten a weight of a floor plate remarkably by reducing a weight of concrete, to apply for maintenance of the floor plate effectively, to construct a slim structure and to shorten a period of work remarkably. CONSTITUTION: The I-steel composite hollow floor plate comprises: a lower plate(1) composed of steel plates; many I-steels(10) arranged evenly on the lower plate(1) instead of a main reinforcement bar; and concrete placed on the lower plate(1) with an appointed thickness to locate the I-steel(10) inwardly and compounded with the I-steel(10). Wherein a through hole(12) is formed on the web of the I-steel(10), a hollow pipe(20) is placed to the through hole(12) to cross the I-steel(10), a lower distributing bar(21) is placed through the through hole(12) and an upper distributing bar(22) is placed on an upper flange of the I-steel(10), so that the through hole(12) of the I-steel(10) and the hollow pipe(20) form a hollow in the floor concrete to lighten the weight of the floor plate.

Description

Hollow Type I Beam Composite Deck and Constructing Method

The present invention relates to an I-beam composite bottom plate having a structure in which an I beam, that is, an I-beam is synthesized integrally with concrete by disposing a steel reinforcing bar, and a construction method thereof. The present invention relates to an I-shaped steel composite hollow floor plate having a significantly reduced weight and a construction method thereof.

As an example of a structure, in the case of a bridge, the bottom plate of the bridge is subjected to a severe load due to the recent increase in vehicle weight and traffic volume, thus increasing the frequency of destruction such as punching and increasing the need for repair or replacement. It has a significant impact on the use of the bridge. In particular, in the case of bridges, because the vehicle frequently passes and puts a fatigue load accordingly, the bottom plate of the bridge ultimately dominates the performance of the structure.

As a result of efforts to improve the strength, specifically, the fatigue strength, of the bottom plate used in the structures such as bridges, I beams, i.e., I beams instead of the main reinforcing bars, are synthesized with the concrete. The bottom plate is developed.

In other words, by replacing the cast steel of the bottom plate with I-shaped steel, placing the I-shaped steel at the existing cast steel reinforcement position and pouring concrete to synthesize I-shaped steel and concrete. Such I-shaped steel composite deck is mainly manufactured by precast method.

However, in the case of the conventional I-shaped steel composite floor plate which simply replaced the cast steel with I-shaped steel, the self-weight of the entire bottom plate increases due to the use of I-shaped steel relatively heavier than the reinforcing bars. In a structure such as a bridge, the self-weight of the bottom plate accounts for a large proportion of the weight of the whole structure, so that the self-weight increase of the bottom plate is a direct cause of the increase in the self-weight of the structure, which is not only economical of the bottom plate itself, Peripheral structures that support the bottom plate, for example, bridges, such as suspension bridges, cable-stayed bridges will not only result in enormous peripheral structures such as cables, pylons, anchors, etc., but also increase the construction cost and cause economic deterioration. In addition, the enlargement of the structure requires securing a wider construction space.

Therefore, there is an urgent need for a method that can reduce the weight of the bottom plate in order to reduce the weight and simplify the construction of the entire structure while maintaining excellent structural performance, namely improved fatigue durability and ease of construction. There is a situation.

The present invention was developed in order to overcome the limitations of the conventional I-shaped steel composite floor plate as described above, specifically, through-holes formed in the abdomen of the I-shaped steel installed in place of the cast iron, and intersects with the I-shaped steel In order to reduce the weight of I-shaped steel as well as the weight of concrete to be synthesized with I-shaped steel by installing a hollow pipe inside the concrete by installing a hollow pipe in the concrete, It aims to provide.

1 is a schematic perspective view of an I-beam composite hollow bottom plate used as a bottom plate of a bridge as an example of the composite bottom plate according to the present invention.

2A is a cross-sectional view taken along the line A-A of FIG. 1.

FIG. 2B is an enlarged detail view of portion C of FIG. 2A.

Figure 2c is a schematic diagram of the coupling structure of the bottom plate and the I-beam for explaining the structure adopted to prevent the lifting of the I-beam when installing the I-beam in the present invention.

3 is a cross-sectional view taken along the line B-B of FIG. 1.

* Explanation of symbols for the main parts of the drawings *

1 Base Plate 10 I Shape Steel

11 Lower Flange 12 Through Hole

15 Cutout 20 Hollow Tube

21 Lower Power Reinforcement 22 Upper Power Reinforcement

In order to achieve this object, in the present invention, a bottom plate made of a steel plate; A plurality of I-shaped steels arranged side by side at predetermined intervals on the bottom plate in place of the main reinforcing bars; As a bottom plate made of concrete which is cast on the bottom plate with a predetermined thickness so that the I-beam is located therein and synthesized with the I-beam; Through-holes are formed in the abdomen of the I-beams at predetermined intervals, and hollow tubes, which are hollow inside, intersect the I-beams, and are disposed in the through-holes. The upper flange of the upper reinforcement has a configuration in which the reinforcement, by the through-hole of the I-beams and the hollow tube disposed therein to form a hollow in the interior of the bottom plate concrete to reduce the weight of the bottom plate I Section steel composite hollow bottom plate is provided.

In the I-beam composite hollow bottom plate according to the present invention having the structure as described above, since the I-shaped steel is used instead of the cast steel, the hollow plate crosses the I-shaped steel while maintaining the reinforcing effect of the bottom plate due to the I-shaped steel. Therefore, since it is installed in the abdomen of the bottom plate, the amount of concrete used is reduced by the internal volume of the hollow tube, it is possible to significantly reduce the weight of the bottom plate. In addition, a through hole is formed in the abdomen of the I-beam for cross-installation of the hollow tube. The abdominal portion of the I-beam is to be removed to form the through-hole, so that the self-weight of the I-beam is reduced accordingly and thus the bottom plate self-weight. The reduction effect is remarkable.

In the present invention, in addition to the above-described configuration, in order to reduce the weight of the I-steel, an I-shaped steel composite hollow bottom plate having a structure in which a plurality of cutouts are further formed at predetermined intervals in the abdomen of the I-steel is provided.

According to the above configuration, by forming a plurality of cutouts in the abdomen of the I-beams by removing a part of the abdomen of the I-beams of low structural importance, the self-weight of the I-beams is further reduced and accordingly the weight of the bottom plate more remarkably. Can be reduced.

In addition, the present invention provides a construction method of the composite I-shaped hollow floor plate, the construction method according to the present invention, the step of installing a bottom plate made of a steel plate to function as a floor formwork; Arranging a plurality of I-shaped steels having through holes formed at predetermined intervals on the abdomen side by side at predetermined intervals in place of the main reinforcing bars on the bottom plate; Placing the hollow tube through the through hole so that the hollow tube intersects the I-beam; Reinforcing a lower reinforcement bar to the through hole and reinforcing the upper reinforcement bar on the upper flange of the I-beam; By placing concrete having a predetermined thickness over the I-beam, hollow tube and upper and lower reinforcing bars disposed on the bottom plate, the hollow part is formed inside the bottom plate concrete by the through-hole of the I-beam abdomen and the hollow tube disposed therein. It is characterized by constructing the bottom plate.

Hereinafter, with reference to the accompanying drawings will be described the configuration and effect of the present invention.

1 is a schematic perspective view of an I-beam composite hollow bottom plate used as a bottom plate of a bridge as an example of the composite bottom plate according to the present invention. For the sake of explanation, the concrete part is shown in dashed lines in FIG. 1. Figure 2a is a cross-sectional view taken along the line AA of Figure 1, Figure 2b is an enlarged detail of the portion C of Figure 2a, Figure 2c is a structure employed to prevent the lifting of the I-beam when installing the I-beam in the present invention It is a schematic diagram for explaining. 3 is a cross-sectional view taken along the line B-B in FIG.

As shown in the figure, a plurality of I beams, that is, I-shaped steels 10, are arranged side by side in the axial direction at a predetermined interval on the bottom plate 1 made of a plate such as a zinc steel sheet in place of the main reinforcing bar of the bottom plate.

When the I-shaped steel 10 is placed directly on the bottom plate 1, the lower flange 11 of the I-shaped steel 10 is separated by a separate means such as a nail to prevent the I-shaped steel 10 from being lifted. Press it. That is, for example, as shown in FIG. 2C, the nail 31 is fixed around the I-beam 10 so that the nail head presses the lower flange 11 to prevent the I-beam 10 from being lifted. have.

In the present invention, the through hole 12 is formed in the abdomen of the I-shaped steel 10 at predetermined intervals. Although the through hole 12 is formed in a semicircular shape in the drawing, the shape of the through hole 12 in the present invention is not limited thereto and may be arbitrarily modified. For reference, FIG. 2B illustrates a state in which the concrete is filled in the through hole 12.

The plurality of I-shaped steels 10 are arranged so that the through-holes 12 are in the same position, and the hollow tube 20 having an empty interior passes through the through-holes 12 and intersects the I-shaped steels 10. Is arranged to. The hollow tube 20 is preferably made of a steel pipe.

In the present invention, the reinforcing bars arranged perpendicularly to the main reinforcing bars in the bottom plate are arranged as follows. As shown in the figure, the lower reinforcement bar 21 is disposed to cross the I-shaped steel 10 through the through hole 12 together with the hollow tube 20. In the embodiment shown in FIG. 2B, the lower reinforcement bar 21 is disposed at the corner of the semicircular through hole 12. The upper reinforcing bar 22 is placed to intersect with the I-beam 10 at the top of the I-beam 10.

As described above, after placing the I-shaped steel 10, the hollow tube 20 and the upper and lower backing reinforcing bars (21, 22) on the bottom plate (1), by pouring concrete to a predetermined thickness to cure, the I-shaped steel (10) , Hollow pipe 20, the upper and lower backing reinforcement (21, 22) is to be combined with the concrete in the concrete 40 to form a bottom plate.

In the I-beam composite hollow bottom plate according to the present invention having the structure as described above, since the I-shaped steel 10 is used in place of the cast steel, the reinforcing effect of the bottom plate due to the I-shaped steel 10 is maintained, while the hollow hollow Since the hollow tube 20 is installed on the abdomen of the bottom plate to cross the I-shaped steel 10, the amount of concrete used by the inner volume of the hollow tube 20 can be reduced to significantly reduce the weight of the bottom plate.

In addition, the through-hole 12 is formed in the abdomen of the I-shaped steel 10 for the cross installation of the hollow tube 20, the abdominal portion of the I-shaped steel 10 must be removed to form the through-hole 12. Therefore, the self-weight of the I-beam 10 itself is also reduced accordingly, thereby reducing the weight of the bottom plate.

On the other hand, in the I-shaped composite hollow bottom plate according to the present invention may be further provided with a plurality of cut holes 15 in the abdomen of the I-shaped steel 10 to reduce the weight of the bottom plate. In the I-shaped steel 10 instead of the cast steel, the bearing force by external force is substantially borne by the upper flange 14 and the lower flange 11 of the I-shaped steel 10. Therefore, even if the abdominal portion is removed by forming a plurality of cutouts 15 in the abdomen of the I-shaped steel 10 having a relatively low structural reinforcing function, the structural performance of the I-shaped steel 10 is maintained.

As described above, in the present invention, a plurality of cutting holes 15 are formed in the abdomen of the I-beam 10 so as to reduce the weight of the I-beam 10 by removing a part of the abdomen of the I-steel 10 having low structural importance. . Due to this structure, the self-weight of the hollow I-shaped steel composite bottom plate of the present invention with I-shaped steel 10 can be further reduced significantly.

I-beam composite hollow floor according to the present invention may be installed by placing the concrete 40 after the installation of each member in the field according to the arrangement order as described above, but pre-fabricated in the factory pre-manufactured and transported to the factory It can also be used.

As described above, in the hollow I-beam composite bottom plate of the present invention, since the use of I-shaped steel in place of the cast reinforcing bar, while maintaining the reinforcement effect of the bottom plate due to I-shaped steel hollow hollow tube Since it is installed across the I-beam, the amount of concrete used is reduced by the internal volume of the hollow tube, thereby significantly reducing the weight of the bottom plate.

In addition, a through hole is formed in the abdomen of the I-beam for cross-installation of the hollow tube. The abdominal portion of the I-beam is to be removed to form the through-hole, so that the self-weight of the I-beam is reduced accordingly and thus the bottom plate self-weight. The reduction effect is remarkable. Accordingly, the I-shaped composite hollow floor plate according to the present invention can be effectively applied to the repair and repair of a long bridge that requires a great influence by the self-weight of the bottom plate or a reduction of the self-weight of the bottom plate.

In particular, since the use of I-shaped steel having excellent structural performance, it is possible to reduce the thickness of the bottom plate compared to the general reinforced concrete floor plate using the cast iron, it is possible to construct a more slim structure.

In addition, since the bottom plate is used for the installation of the I-shaped steel, since the bottom plate itself serves as a concrete formwork, a mold for casting the concrete, a copper bar, etc. are not necessary, so that the temporary construction can be omitted. By omitting the construction work for such concrete pouring, not only the construction cost can be reduced, but also the construction can be performed with high precision, thereby improving the quality of the structure. Furthermore, since the time required for construction work can be shortened, the overall air can be significantly shortened.

In addition, since the I-beam composite hollow floor plate according to the present invention can be manufactured by a precast method, the structure of the bridge deck can be standardized according to the design live load.

Although the embodiments of the present invention have been described above, the present invention is not limited to the described embodiments, and free modifications and improvements can be made within the spirit and claims of the present invention.

Claims (3)

A bottom plate 1 made of a steel plate; A plurality of I-shaped steels 10 arranged side by side on the bottom plate 1 at predetermined intervals in place of the main reinforcing bars; As the bottom plate made of concrete 40 which is cast on the bottom plate 1 to a predetermined thickness so that the I-shaped steel 10 is located therein and synthesized with the I-shaped steel 10, Through-holes 12 are formed in the abdomen of the I-shaped steel 10 at predetermined intervals; The through-hole 12 is disposed to penetrate the hollow tube 20, the hollow inside to cross the I-beam (10); The through-hole 12 has a configuration in which the lower reinforcement bar 21 is reinforced and the upper reinforcement bar 22 is reinforced above the upper flange of the I-shape 10, The I-shaped steel composite hollow floor plate is characterized in that the bottom plate is lightened by forming a hollow portion inside the bottom plate concrete by the through-hole 12 of the abdomen of the I-shaped steel 10 and the hollow tube 20 disposed therein. The method of claim 1, I-shaped steel composite hollow bottom plate is characterized in that a plurality of cutting holes 15 are further formed at predetermined intervals in the abdomen of the I-shaped steel (10) to reduce the weight of the I-shaped steel (10). Installing a bottom plate (1) made of steel plate to function as a floor formwork; Arranging a plurality of I-shaped steels (10) having through holes (12) formed at predetermined intervals on the abdomen side by side at predetermined intervals in place of the main reinforcing bars on the bottom plate (1); Arranging the hollow tube 20 having a hollow inside through the through hole 12 so as to intersect the I-beam 10; Reinforcing the lower reinforcing bars 21 to the through holes 12 and reinforcing the upper reinforcing bars 22 on the upper flanges of the I-shaped steel 10; A through hole in the abdomen of the I-shaped steel 10 by pouring concrete 40 having a predetermined thickness onto the I-shaped steel 10, the hollow tube 20, and the upper and lower reinforcing bars 21 and 22 disposed on the bottom plate 1. (12) and the hollow pipe 20 disposed therein, so that the hollow portion is formed in the interior of the bottom plate concrete construction method of I-shaped steel composite hollow floor plate, characterized in that the construction of a lightweight bottom plate.