KR101272115B1 - Composite structure of corrugated steel plate web-psc composite beam which combined corrugated steel plate and concrete plate with holed l shape steel - Google Patents

Abstract

PURPOSE: A composite structure of concrete and a corrugated steel pipe of a corrugated steel web prestressed concrete composite girder using a penetrating L-section steel is provided to obtain a stable connection force with concrete by integrally connecting a concrete structure and the corrugated steel web. CONSTITUTION: A composite structure of concrete and a corrugated steel pipe of a corrugated steel web prestressed concrete composite girder using a penetrating L-section steel(20) comprises a corrugated steel web(10) and upper and lower concrete(30,40) combined in the upper end and the lower end of the corrugated steel web. The L-section steel is symmetrically connected to the upper end and the lower end of the corrugated steel web and is individually embedded in the upper concrete and the lower concrete. A plurality of shear connection holes(21) is formed on one side of the L-section steel. A shear fixing reinforcing bar vertically penetrates the shear connection holes and is combined with the concrete.

Description

Composite structure of corrugated steel plate web-PSC composite beam which combined corrugated steel plate and concrete plate with holed 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 synthesizing concrete on the upper and lower ends of the abdominal corrugated steel sheet. By using the cross-sectioned steel with the shear connection hole through the joint, the abdominal corrugated sheet and the concrete can be synthesized integrally without segregation to ensure continuity, so that the abdomen using the hollowed-out cross-sectioned steel that can be expected to bond more firmly with concrete Corrugated steel sheet The composite structure of the abdominal corrugated steel sheet and concrete of prestressed concrete composite girder.

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, Patent Registration No. 0561510 "Synthetic structure in which corrugated steel sheet and concrete are combined with base steel and stud in abdominal corrugated steel sheet PS composite structure" (Patent Document 1).

In the background art, as shown in Fig. 5, in the upper structural form of the abdominal corrugated steel sheet and the PS concrete is attached to the abdominal corrugated steel plate and concrete, the longitudinally shaped steel sheet in the upper and lower ends of the abdominal corrugated steel sheet (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) (A-shaped steel) (8) and the abdominal corrugated steel sheet (1) to be a unitary structure and a number of studs (3) are joined to the horizontal plane of the base-shaped steel (A-shaped steel) (8) by welding the abdominal corrugated steel sheet (1) We propose a composite structure of the abdominal corrugated steel sheet and concrete, characterized in that the upper and lower ends of the) and the base steel (a-shaped steel) (8) and the stud (3) are integrally embedded.

However, the background art was expected to combine the abdominal corrugated steel sheet (1) and concrete using a separate stud (3) as a shear connector in the base steel (8), but a plurality of studs There is a problem that it is difficult to attach 3) to the base section steel ('ㄱ' shaped steel) 8 of the abdominal corrugated steel sheet.

In particular, there is a significant problem that a high cost is generated by attaching a large amount of studs 3, which are quite expensive, by welding by manpower.

Patent Registration No.0561510

The present invention is to solve the above problems, in the composite girder using a corrugated steel plate as the abdominal plate and composite the concrete on the upper and lower ends of the abdominal corrugated sheet, the shear connection hole when the abdominal corrugated sheet and the concrete is combined By using the perforated precaster steel, the abdominal corrugated steel sheet and concrete can be synthesized integrally without being separated to ensure continuity, so that the abdominal corrugated steel sheet prestressed concrete composite using the perforated precaster steel can be expected The purpose is to provide a composite structure of the girder's abdominal corrugated steel sheet and concrete.

The present invention is composed of steel and the abdominal corrugated steel sheet having a curved shape in a regular form, and composed of upper and lower concrete synthesized on the upper and lower, and the translating steel beam on the top, bottom or top and bottom of the abdominal corrugated steel sheet Symmetrically coupled to the upper and lower ends of the abdominal corrugated steel sheet and the translator section steel to be integrally buried in the upper and lower concrete, but on the other side of the horizontal surface which is not in contact with the abdominal corrugated steel sheet of the commutator section steel coupled to the abdominal corrugated steel sheet Synthesis of the abdominal corrugated steel plate and concrete of the prestressed concrete composite girder using the vented corrugator section steel to form a plurality of shear connection holes so that the abdominal corrugated steel sheet and concrete can be integrally synthesized without separation We want to provide a structure.
In this case, the shear connection hole may be further provided with a rod-shaped shear-reinforced bar, or bent-type shear-reinforced bar.

In addition, bent shear bars may be additionally installed to interconnect the left and right symmetrical cross sections of the abdominal corrugated steel sheet in the transverse direction, and the shear connecting holes may be formed in an elliptical shape long in the longitudinal direction of the cross sections. have.

According to the present invention, in a composite girder using a corrugated steel sheet as an abdominal plate and synthesizing concrete on the upper and lower ends of the abdominal corrugated steel sheet, the use of a cross-sectioned steel through which a shear connection hole is formed when the abdominal corrugated steel sheet is combined with concrete, The upper and lower portions of the horizontal cross section of the cross section of the cross section of the cross section of the cross section of the cross section of the cross section of the cross section are formed so that the cross section of the cross section constrains the concrete and cross section section together in all directions.

This is a very useful effect to bond the entire structure of the abdominal corrugated sheet steel and concrete into a stronger structure to ensure a stronger bond with more concrete concrete, by welding a large amount of studs, which is quite expensive The problem of excessive cost incurred by attaching to the steel beam can be easily improved by simple through-holes of shear connection holes in the steel beam, which is very economical.

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 partially cutaway perspective view of the abdominal corrugated steel sheet prestressed concrete composite girder of the present invention,
Figure 2a is a cross-sectional view of FIG.
2b is a cross-sectional view of the box girder,
Figure 3 is a perspective view showing a combined state of the abdominal corrugated steel plate and the translating member-shaped steel of the present invention, Figure 3a is a perspective view showing a circular shear connection hole is formed, Figure 3b shows a state in which the elliptical shear connection hole is formed Perspective,
Figure 4 is a perspective view showing an embodiment of a variety of shear binding bars of the present invention,
5 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.

1 is a partial cutaway perspective view of the abdominal corrugated steel sheet prestressed concrete composite girder of the present invention.

As shown in FIG. 1, the abdominal corrugated steel sheet prestressed concrete composite girder of the present invention further improves the bonding strength in synthesizing the concrete corrugated steel sheet 10 and the concrete 30 and 40 on the upper and lower ends, respectively. Each of the abdominal corrugated steel sheet 10 in contact with the vertical surface of the translator shaped steel 20 is symmetrically coupled to the left and right sides of the translator shaped steel 20 in the longitudinal direction from the upper and lower ends of the abdominal corrugated steel sheet 10 so as to be symmetrical. The coupling bolt 50 is fastened to the joint surface, and the horizontal surface, which is the other surface of the transducer-shaped steel 20 which is not in contact with the abdominal corrugated steel plate 10, passes through a plurality of shear connection holes 21 at regular intervals, and the abdominal waveform The top or bottom of the steel plate 10 and the translator-shaped steel 20 is to be embedded together in one piece in concrete.

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

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

FIG. 2 is a cross-sectional view of the abdominal corrugated steel sheet prestressed concrete composite girder of the present invention, FIG. 2A is a cross-sectional view of the composite I girder as the cross-sectional view of FIG. 1, and FIG. 2B is a cross-sectional view of the box-shaped girder.

As shown in Figure 2, the connection between the abdominal corrugated steel sheet 10 and the upper and lower concrete 30, 40 of the abdominal corrugated steel sheet prestressed concrete composite girder according to the present invention, the abdominal corrugated steel sheet 10, The tracer section steel 20 attached to the left and right sides of the bottom by symmetrical coupling of bolts 50 is embedded in the concrete 30 and 40 together with the upper or lower portion of the abdominal corrugated steel sheet 10. It is constructed in one piece.

In particular, in the horizontal plane, which is the other surface that does not come into contact with the corrugated steel sheet 10 of the caster section steel 20 embedded in the concrete 30, 40, the shear connecting hole 21 is formed at a predetermined interval, so that the tracer section steel 20 is formed. In the horizontal shear connection hole (21) of the concrete (30, 40) is formed through the shear connection hole (21) is composed of a continuous integral that the up and down of the horizontal surface of the translator section steel 20 is not cut off.

As described above, the caster section steel 20 embedded in the concrete 30 and 40 has a shear connection hole 21 formed through a predetermined interval through the horizontal surface of the tracer section steel 20 to form a shear connection hole 21. The concrete is not separated into the upper and lower layers, and eventually the shear connection hole 21 is to confine the concrete 30, 40 and the tracer section steel 20 in all directions together.

This can secure the effect of binding the entire structure of the abdominal corrugated steel sheet 10 and concrete 30, 40 in a stronger structure more strongly, the abdominal corrugated steel sheet 10 and concrete (30) compared to the conventional method It is possible to expect a more robust composite structure with an increased bond strength of the (40).

In addition, the upper and lower concretes 30 and 40 are connected through the shear connection hole 21 and wedged together with the adjacent mass of concrete, thereby preventing the concrete 30 and 40 from being separated into layers. It prevents the activity between the steel and the concrete and closes the two parts to increase the friction force.

Figure 3 is a perspective view showing a coupling state of the abdominal corrugated steel sheet of the present invention, Figure 3a is a perspective view showing a state in which a circular shear connection hole is formed, Figure 3b is a perspective view showing a state in which an elliptical shear connection hole is formed.

As shown in FIG. 3A, the transducer-shaped steel 20 coupled to the upper and lower ends of the abdominal corrugated steel sheet 10 are sequentially contacted at predetermined intervals according to the curved surface of the abdominal corrugated steel sheet 10, as described above. On each side of the corrugated steel sheet 10 and the tracer section steel 20 is to fasten the coupling bolt 50 of an appropriate amount.

Shear connection hole 21 is configured in a horizontal plane, which is the other side of the cross-section steel (20) that is not in contact with the corrugated steel sheet 10, may be configured in a circular shape as shown in Figure 3a, as shown in Figure 3b Likewise, by forming an elliptical shape to make the size of the shear connection hole 21 larger, the concrete 30 and 40 in the horizontal shear connection hole 21 of the transverse section steel 20 are formed by the shear connection hole 21. It is possible to further increase the longitudinal size of the cross-section width of the limited cross-section steel (20), regardless of the transverse width of the limited cross-section steel (20) horizontal plane through the bottom of the horizontal cross section This is also to facilitate the coupling of the (22) (22a) (22b) and (22c).

Part of the coupling bolt 50 is fastened to the opposite side of the curved surface to the coupling bolt 50 is fastened due to the nature of the abdominal corrugated steel plate 10 is always a space is always excellent workability, concrete (30, 40) When synthesizing the concrete portion 30 (40) is filled in the space because the coupling bolt 50 has a more firm coupling force.

In addition, Figure 4 is a perspective view showing an embodiment of a variety of shear binding rebar of the present invention, as shown in Figure 4, the shear connection hole 21 to form a variety of types of shear binding reinforcement to serve as a separate shear connector In this way, it is possible to induce a complete synthesis between the abdominal corrugated steel sheet 10 made of steel and the upper and lower concrete 30, 40.

As shown in Figure 4a, the first embodiment of the various shear binding reinforcing bar, the rod-shaped shear reinforcing bar 22 having a predetermined length is configured by coupling a variety of known methods, such as welding for each of the shear connection hole (21) can do. The rod-shaped shear restraint bar 22 may be configured by cutting the rod-shaped shear restraint bar 22 with the same length and inserting the shear-shaped shear bar 22 into the shear connection hole 21.

In addition, as shown in Figure 4b, the second embodiment of the shear binding reinforcing bar, the shear-connected shear reinforcing bar 22a of the shape bent to the c-shaped reinforcement shear connection adjacent adjacent in the longitudinal direction of the steel beam 20 It may be formed by connecting with the ball 21. The lifter section steel 20 formed at the upper portion of the abdominal wave plate 10 protrudes to the outside from the lifter section steel 20 formed at both ends of the abdominal wave plate 10 protrudes upward, and the lifter section steel 20 formed at the bottom ) Is configured to protrude downward. At this time, the coupling position of the bent shear constrained reinforcing bar (22a) is configured in the longitudinal direction of each cross-talk-shaped steel 20, it is coupled to connect the adjacent shear connecting holes 21 in the longitudinal direction.

In addition, as shown in Figure 4c, the third embodiment of the shear binding reinforcing bar, the bent shear binding reinforcing bars 22b of the shape of the shear connecting hole 21 and the adjacent adjacent in the longitudinal direction of the cross-section steel (20) It may be formed by connecting to each other. At this time, the bent shear constrained rebar 22b is formed to protrude to the upper and lower portions of the shear connection hole 21, respectively. The bent shear binding reinforcing bar 22b of the shape bent by ㅁ may be configured to be coupled to the upper and lower portions of the shear connection hole 21 in a U shape so as to be easily coupled to the shear connection hole 21.

In addition, as shown in FIG. 4D, the fourth embodiment of the shear restraint reinforcement includes a bent shear restraint bar 22c having a reinforcing bar bent by a letter c and a left and right symmetrical coupling of the abdominal corrugated steel plate 10. Shear connecting holes 21 and 21 of the steel 20, 20 can be configured to interconnect with the transverse direction. That is, it has a structure that interconnects the cross-section steel 20 is formed symmetrically with each other, wherein the bent shear restraint 22c is protruded to the outside.

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: translator section steel
21: Shear connection ball
22: bar shear connection bar
22a, 22b, 22c: bending shear bars
30: Upper concrete
40: Lower concrete
50: Bolt

Claims (6)

The abdominal corrugated steel sheet 10, which is made of steel and has a curved shape in a regular form, and is composed of upper and lower concretes 30 and 40 synthesized on the upper and lower portions thereof, and the abdominal corrugated steel sheet 10 By combining the left and right symmetrical beam (20) in the upper or lower or upper and lower ends of the abdominal corrugated steel plate 10 and the translator shaped steel (20) integrally embedded in the upper and lower concrete (30) (40), respectively, ,
A plurality of shear connection holes 21 are formed in the horizontal plane, which is the other surface not contacted with the abdominal waveform steel plate 10 of the cross-beam steel plate 20 coupled to the abdominal wave steel plate 10, and the shear connection hole 21 is formed. The abdominal corrugated steel sheet prestressed using the perforated cross-section steel to secure the continuity by combining the rod-shaped shear-bound rebar 22 having a certain length through the vertically and combining the abdominal corrugated steel sheet and concrete without being separated Composite Structure of Abdominal Corrugated Steel Plate and Concrete of Concrete Composite Girder. delete delete delete delete The method of claim 1,
The shear connection hole (21) is a composite structure of the abdominal corrugated steel sheet and concrete of the abdominal corrugated steel sheet prestressed concrete composite girder using a hollowed out cross-section steel, characterized in that formed in an oval shape.

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