KR101347939B1 - Composite structure of corrugated steel plate web-PSC composite beam structure which combined corrugated steel plate and concrete plate with L shape steel - Google Patents

Abstract

The present invention discloses a composite structure of an abdominal corrugated steel sheet and concrete of an abdominal corrugated steel sheet prestressed concrete composite girder using a transverse member.
Abdominal corrugated steel sheet using the transverse member according to the present invention The composite structure of the abdominal corrugated steel sheet and concrete of the prestressed concrete composite girder is composed of steel and the abdominal corrugated steel sheet having a curved wave shape in a regular form, and its upper and lower parts Consists of upper and lower concrete flanges synthesized in the upper and lower symmetrical combinations of left and right symmetrical steel on the top, bottom, or top and bottom of the abdominal corrugated steel sheet, and the upper and lower ends of the abdominal corrugated steel sheet are integrated into the upper and lower concrete flanges. The transverse members are coupled to each other so as to protrude outwards while interconnecting the cross-section steels which are symmetrically coupled to the abdominal corrugated steel sheet in the transverse direction, and the transverse members are L-shaped or cross-sectional in cross-section. It is characterized by consisting of a square angle of the c-shape.

Description

Composite structure of corrugated steel plate web-PSC composite beam structure which combined corrugated steel plate and concrete plate with L shape steel}

The present invention relates to an abdominal corrugated steel sheet prestressed concrete composite girder, and more particularly to using a corrugated steel sheet as an abdominal plate and constructing a caster steel on the upper and lower portions of the abdominal corrugated steel sheet to synthesize a concrete flange. When the corrugated steel plate and concrete flange are combined, the transverse members are configured to connect the symmetrical radiator steel in the lateral direction, increasing the bonding force between the radiator steels and acting as a shear connector, so that concrete is not separated into layers. It is possible to secure the continuity to prevent the activity between steel and concrete, and to make the composite structure of the abdominal corrugated steel sheet and concrete of the prestressed concrete composite girder It is about.

Absorption corrugated steel sheet Prestressed concrete (PSC) composite structure used in bridges is a structure that reduces the weight of the mold, which is the superstructure of bridge, by 20 ~ 30% by replacing abdominal member with lightweight corrugated steel sheet. The upper and lower concrete (flange) resists and the shear force resists the corrugated steel sheet of the abdomen.

This structure has the great structural efficiency in the upper mold itself due to the reduction of dead weight due to the self weight of the mold, and the accordion effect that can effectively introduce the prestress into the concrete as a characteristic of the corrugated steel that freely flows without resisting the axial force. There is.

In addition, although the abdomen is a thin steel plate, it has the advantage of securing a sufficient shear buckling strength without installing additional stiffeners. Moreover, the cross-section and scale of the bridge substructure are considerably increased due to the reduced weight of the upper mold. Can be reduced.

In addition, it is possible to shorten the air and reduce the construction cost by improving the field workability by omitting the abdominal reinforcing bar and concrete work which require the most foam.

As a background technology of the present invention, there is a patent registration No. 0561510 'Synthetic structure in which the corrugated steel sheet and concrete in the composite structure of the abdominal corrugated steel sheet PS with combined steel and stud' (Patent Document 1).

In the background art, as shown in FIG. 6, in the upper structural form of the abdominal corrugated steel sheet and the PS seeded composite structure, the abdominal corrugated steel sheet and concrete are attached to each other. A-shaped steel (8) is coupled to the left and right symmetry, but the coupling bolt (9) in each joint surface of the abdominal corrugated steel plate (1) in contact with the vertical portion of the non-reversed steel (A-shaped steel) (8) by tightening The a-shape steel (8) and the abdominal corrugated steel sheet (1) are integrally structured, and a number of studs (3) are mounted on the horizontal surface of the base-shaped steel (a-shaped steel) (8) by welding, thereby forming an abdominal corrugated steel sheet (1) in concrete. It proposes a composite structure of the abdominal corrugated steel sheet and concrete, characterized in that the upper and lower portions of the base steel (a-shaped steel) (8) and the stud (3) is embedded in an integral structure.

However, although the background art expects a satisfactory synthesizing effect of the abdominal corrugated steel sheet 1 and concrete by using a separate stud 3 as the shear connector for the base steel (8), the abdominal corrugated steel sheet (1) The stud (3) can only be placed in a section of a very narrow width that can be secured in the transverse direction in the horizontal plane of the base steel (male) 8, which is symmetrically from the top, bottom, and left to right. There is a limit to apply the background art to the superstructure of a very large and thick cross-section bridge has a problem that is somewhat insufficient to maximize the coupling effect.

In addition, it is difficult to attach a plurality of studs (3) separately configured to the non-restricted steel (8) of the abdominal corrugated steel sheet, and because of this, a large amount of studs (3), which is quite expensive, is welded by manpower. There was a significant problem that the expensive cost is to be attached to.

Patent Registration No.0561510

The present invention is to solve the above problems, in the composite girder using a corrugated steel plate as an abdominal plate and the structure of the recessed steel in the upper and lower parts of the abdominal corrugated steel sheet to synthesize the concrete flange, the abdominal corrugated steel sheet and the concrete flange and It is possible to secure the continuity by connecting the concrete without being separated into layers by increasing the bonding force between the beams and using the transverse members configured to connect symmetrically formed radiator steels in the lateral direction. The purpose is to provide the composite structure of the abdominal corrugated steel sheet of the prestressed concrete composite girder and the concrete of the lateral corrugated steel sheet using the transverse member to prevent the activity between the steel and the concrete and to increase the friction force by bringing the two parts into close contact with each other. .

The present invention comprises an abdominal corrugated steel sheet having a corrugated wave shape in a regular shape, and the upper and lower concrete flanges are synthesized on the upper and lower parts of the steel material, and the upper and lower or upper and lower ends of the abdominal corrugated steel sheet Symmetrically coupled to the upper and lower ends of the abdominal corrugated steel plate and the restraint steel are integrally embedded in the upper and lower concrete flanges. The transverse member is coupled so as to protrude into the abdomen, and the transverse member is a steel rod or cross-section abdominal corrugated steel plate prestressed concrete using a transverse member, characterized in that consisting of L-shaped, inverted T-shaped, C-shaped square angle Provides composite structure of abdominal corrugated steel plate of composite girder and concrete.

In addition, it is possible to configure the shear connection hole in the angular angle, can be configured to combine the shear connection reinforcement into the shear connection hole, when the steel bar is configured can be configured to further combine the shear connection reinforcement in the steel bar have.

The composite structure of the abdominal corrugated steel sheet and concrete of the abdominal corrugated steel sheet prestressed concrete composite girder using the transverse member of the present invention is to use the corrugated steel sheet as the abdominal plate and to synthesize the concrete flanges on the upper and lower parts of the abdominal corrugated steel sheet. The transverse member constitutes a transverse member configured to connect the radiator steel in the transverse direction, and the transverse member is sufficiently long in length to transverse the horizontal plane sections of both the left and right symmetrical steels formed at the top or bottom of the abdominal corrugated steel sheet. Since it can be protruded outwardly far in the direction, compared with the prior art, by increasing the length of the transverse member embedded in the upper and lower concrete in the transverse direction, the concrete structure or transverse direction of larger and thicker cross section Stable enough even in very wide concrete structures The problem of excessive cost of attaching a large number of studs, which can be connected and connected at the same time, by a large amount of studs by welding, is also a very useful effect that can be considerably improved by the provision of a simple transverse member.

The following drawings, which are attached in this specification, illustrate the preferred embodiments of the present invention, and together with the detailed description thereof, serve to further understand the technical spirit of the present invention. It should not be construed as limited.
1 is a perspective view of a composite composite girder of the abdominal corrugated steel sheet prestressed concrete configured with a shear angle of the present invention, Figure 1a is a partial cutaway of the abdominal corrugated steel sheet prestressed concrete composite I girder configured with a transverse member to which a square angle of the present invention is applied 1B is a partially cutaway perspective view of an abdominal corrugated steel sheet prestressed concrete composite I girder configured with a transverse member to which a steel bar of the present invention is applied.
2A is a cross-sectional view of FIG. 1A.
2B is a cross-sectional view of the box girder.
FIG. 3 is a perspective view showing the coupled state of FIG. 1A, FIG. 3A is a perspective view of the embodiment of FIG. 1A, FIG. 3B is a perspective view showing another embodiment of FIG. 3A, and FIG. 3C is another embodiment of FIG. 3A. It is a perspective view which shows the example.
Figure 4 is a perspective view showing a combined state of the other embodiment of FIG.
Figure 5 is a perspective view showing a coupling state of the various embodiments of the square angle, Figure 5a is a perspective view of an embodiment to which the square angle of the inverted T-shaped cross section, Figure 5b is a perspective view of an embodiment to which the square angle H-shaped cross section is applied.
6 is a partially separated perspective view of a conventional base steel (a-shaped steel) and the stud is coupled to the corrugated steel sheet.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described in detail below with reference to the embodiments shown in the accompanying drawings, but the present invention is not limited thereto.

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

The present invention can be applied to all composite types, such as I-type, box-type, Π-type using a corrugated steel sheet on the abdominal plate, it can be applied to the beam structure as well as girder.

Hereinafter, the present invention will be described based on the composite I girder as shown in FIG.

1 is a perspective view of a composite composite girder of the abdominal corrugated steel sheet prestressed concrete configured with a shear angle of the present invention, Figure 1a is a partial cutaway of the abdominal corrugated steel sheet prestressed concrete composite I girder configured with a transverse member to which a square angle of the present invention is applied 1B is a partially cutaway perspective view of an abdominal corrugated steel sheet prestressed concrete composite I girder configured with a transverse member to which a steel bar of the present invention is applied.

As shown in FIG. 1, the abdominal corrugated steel sheet prestressed concrete composite I girder configured with a transverse member of the present invention includes an abdominal corrugated steel sheet 10 and concrete flanges 30 and 40 respectively formed at upper and lower portions thereof. In order to further improve the bonding strength in the composite to combine the vertical steel 20 in the longitudinal direction at the upper and lower ends of the abdominal corrugated steel plate 10 so as to be symmetrical to the left and right sides, Coupling bolts 50 are fastened to each joint surface of the abdominal corrugated steel sheet 10 in contact with each other, and a plurality of transverse members 60 are coupled to the horizontal portion of the cross-sectional steel plate 20 at a predetermined interval, thereby forming an abdominal corrugated steel sheet. The upper and lower portions of (10) and the restless steel 20 and the transverse member 60 are integrally embedded in concrete.

The wedge-shaped steel 20 is sequentially contacted at predetermined intervals according to the curved surface of the abdominal corrugated steel sheet 10 so that the upper and lower ends of the abdominal corrugated steel sheet 10 are symmetrically coupled to both left and right sides in the longitudinal direction. In this way, the abdominal corrugated steel plate 10 and the restrainer-shaped steel 20 is in contact with each other by fastening a suitable number of coupling bolts (50). The cross-beam steel 10 is configured to further improve the bonding strength in synthesizing the abdominal corrugated steel sheet 10 and the concrete flanges 30 and 40 respectively formed on the upper and lower portions.

Part of the coupling bolt 50 is fastened due to the characteristics of the abdominal corrugated steel plate 10, the opposite side of the curved surface to which the coupling bolt 50 is fastened at all times because the work is always excellent, the space when synthesizing concrete Since the concrete is filled in the coupling bolt 50 has a more firm coupling force.

The transverse member 60 may be composed of a square angle 60b as in FIGS. 1A, 5A and 5B, or may be configured using a steel bar 60a as in FIG. 1B. As described above, the horizontal member 60 embedded in the concrete flanges 30 and 40 may be formed of a steel bar 60a or a cross-section of an angle angle 60b having an L shape, an inverted T shape, and a c shape. . The steel bar 60a is configured to connect the outer surface of the pilot steel 20 in the transverse direction.

As shown in Figure 4, the steel bar (60a) can be configured to further combine the shear connecting reinforcement 64 in the longitudinal direction in parallel with the proximal steel 20.

FIG. 2 is a cross-sectional view of FIG. 1, FIG. 3 is a perspective view illustrating a coupled state of FIG. 1A, FIG. 3A is a perspective view of the embodiment of FIG. 1A, and FIG. 3B is a perspective view of another embodiment of FIG. 3A. 3C is a perspective view showing still another embodiment of FIG. 3A.

Synthesis of the abdominal corrugated steel sheet 10 and the concrete flanges 30 and 40 of the abdominal corrugated steel sheet prestressed concrete composite I girder having a transverse member according to the present invention is a part of the abdominal corrugated steel sheet 10 and concrete 20 and the transverse member 60 are embedded and are integrally formed.

The square angle 60b consists essentially of a fastening surface 61, which is a horizontal plane interviewing the restraint steel 20, and a shear connection surface 62, which is a vertical plane perpendicular to the restraint steel 20, and has a cross-sectional shape of L. It may be composed of a T-shaped, inverted T-shaped, U-shaped and the like.

At this time, the fastening surface 61 which is a horizontal plane is fastened with bolts 51 to the horizontal plane of the cross-section steel 20, 20 so as to interconnect the left-right symmetry of the abdominal corrugated steel plate 10 in the lateral direction, or It can be combined by various methods, such as well-known welding. That is, it has a structure that interconnects the restrainer-shaped steel 20 of the abdominal corrugated steel sheet 10 configured symmetrically with each other, wherein the angle angle 60b is projected to the outside.

In addition, as shown in Figure 3b, the shear connection surface 62, which is a vertical plane of the square angle 60b is through the hole located in the upper portion of the caster steel 20 to form a shear connection hole (63) and shear connection Since the concrete can be connected and embedded without being separated into layers through the ball 63 to ensure continuity, the bond strength between the abdominal corrugated steel sheet 10 and the concrete flanges 30 and 40 is further increased as compared with the conventional method. Expect more robust composite structures. In addition, when the concrete flange (30, 40) when the concrete is connected through the shear connection hole (63) of the square angle (60b) by the wedge action, the activity between the steel and concrete is prevented and the two parts are in close contact Increases friction

In addition, as shown in Figure 3c, 5a and 5b, the shear connection hole 63 of the square angle 60b to form a shear-bound reinforcing bar 64 and the laterally coupled square angle 60b In addition, it is combined in the longitudinal direction to serve as a separate shear connector, it can be induced to complete the composite action between the abdominal corrugated steel sheet 10 made of steel and concrete flanges 30, 40 made of concrete.

The shear confinement reinforcing bar 64 may be configured by combining various shearing holes 63 by known methods such as welding. The shear confinement reinforcement 64 may be configured as one over the entire length of the restraint-shaped steel, or may be configured by cutting the rod-shaped shear confinement reinforcement with the same length and inserting it into the shear connection hole 63.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art in light of the above teachings. will be. The invention is not limited by these variations and modifications, but is limited only by the claims appended hereto.

10: abdominal corrugated steel sheet
20: pilot steel
30: Upper concrete flange
40: lower concrete flange
50: Bolt
60: transverse member
61: fastening surface
62: shear connection surface
63: shear connector
64: shear connection rebar

Claims (4)

The abdominal corrugated steel sheet 10, which is composed of steel and has a curved shape in a regular shape, and upper and lower concrete flanges 30 and 40 synthesized thereon, is composed of an abdominal corrugated steel sheet 10. By combining the left and right symmetrical steel 20 to the upper or lower or upper and lower ends of the upper and lower ends of the abdominal corrugated steel plate 10 and integrally embedded in the upper and lower concrete flanges 30, 40 But to be
The transverse member 60 is coupled to the abdominal corrugated steel sheet 10 so as to protrude outwards while connecting the cross-section steels 20 which are coupled symmetrically to the left and right at regular intervals,
The transverse member 60 is composed of a fastening surface 61 which is connected in contact with the restrainer steel 20, and a shear connection surface 62 configured to protrude outwardly in a vertical direction with the restrainer steel 20, and shear connection The surface 62 is a composite structure of the abdominal corrugated steel sheet and concrete of the abdominal corrugated steel sheet prestressed concrete composite girder using a transverse member, characterized in that the shear connection hole 63 is composed of a perforated angled angle (60b). delete The method of claim 1,
The abdominal corrugated steel sheet of the abdominal corrugated steel plate prestressed concrete composite girder using a transverse member, characterized in that the shear connecting reinforcement 64 is introduced into the shear connecting hole 63 in the longitudinal direction of the restrainer-shaped steel (20); Composite structure of concrete. delete

Images