KR20090030741A - New rc floor - to - steel column connection details consisting of steel shear-bearing band and steel plates with shear studs for preventing slip of slab - Google Patents

Abstract

A junction of concrete deck-plate and section shape steel post is provided to prevent the damage of shear stud or junction since the shearing apparatus and section steel post are assembled after the shearing apparatus and section steel post are separately transported to the field. A junction of concrete deck-plate and section shape steel post comprises a steel column(10), a concrete deck-plate(30), a shear bearing band(11) which is adhered to the location in which the steel column and concrete deck-plate are welded into one body, and delivers the vertical load from the concrete deck-plate to the steel column, and a shear stud(24) installed in the state where the lower part of the shear connection board(22) is supported by the leaflet pressure band on the top of the shear finger pressure band.

Description

New RC Floor-to-Steel Column Connection Details Consisting of Steel Shear-Bearing Band and Steel Plates with Shear Connection Plates with Shear Studs and Leaflet Pressure Strips Shear Studs for Preventing Slip of Slab}

The present invention relates to a joining structure and a method for constructing a joint of a steel beam column and a concrete floor plate using a shear connection plate and a leaflet pressure band provided with a shear stud, wherein the shear stud is formed at a portion where the column and the concrete floor plate are joined. A new type of beam column that enables the installation of a slim bottom plate by simply connecting the shear plate and the shear strip to the beam column to securely connect the beam column to the concrete floor plate. It relates to a joint structure of concrete and concrete deck and its construction method.

The construction of high-rise buildings used a technique of joining flat concrete decks to reinforced concrete columns. By the way, in the case of using the reinforced concrete column, as the height of the building increases, a large load acts and the cross section of the concrete column becomes excessively large, thereby causing a problem of greatly encroaching the use space of the building. In particular, in recent years, the construction of ultra-high rise building is increasing, the limit of such reinforced concrete pillars has become larger.

As an alternative to the reinforced concrete column, a method of applying a steel column has been proposed. In addition to the steel column, a steel column column made of a section steel may be used. However, in the case of using the steel pillars, in particular when using a steel column, because the material difference between the column and the bottom plate, that is, the heterogeneity between the pillar made of steel and the concrete base plate is not integrated because the column and the base plate In this regard, measures are taken to prevent this. That is, measures to prevent slipping on the surface of the shaped steel pillars are necessary.

Conventionally, for this purpose, a method of welding a steel bracket (bracket) such as a shear stud, an H-beam, or a bottom slab directly to an outer surface of a steel beam column, or penetrating the steel bracket or steel bar to a steel beam column has been proposed. By the way, this method requires a lot of welding work, or due to the complicated and heavy work load, such as drilling a hole in the section of the steel beam and through the hole to install a steel bracket, rebar, etc. There is a disadvantage that the cost increases.

In addition, when the shear studs are attached to the factory in advance and brought into the site, the shear studs are protruded, so that the pillars are transported to the site and the installation work on the site becomes very cumbersome, and the shears protruding from the transfer process are installed. The problem is that the studs are damaged or fall off the column.

The present invention was developed to solve the problems of the prior art as described above, in forming a joint structure of the beam and the concrete floor plate, while effectively preventing the slip (slip) on the surface of the beam, Reduce the welding work, avoid the cumbersome work of penetrating the reinforcement to the column, and to avoid damage or damage to the shear studs, etc. It aims to be able to prevent an increase.

In order to achieve the above object, in the present invention, as a joining structure in which the section steel column and the concrete floor plate are integrally joined, the vertical load from the concrete floor plate on the outer surface of the section steel column at the position where the section steel column and the concrete floor plate are joined. A leaflet pressure band which transmits the pressure to the beams is integrally attached; On the upper part of the leaflet pressure band, a shear connecting plate integrally attached to the front end of the shear stud protrudes on the front surface, is in close contact with the outer surface of the section steel column, and the lower portion of the shear connecting plate is supported by the leaflet pressure strip; In the state where the leaflet pressure band and the shear connecting plate is installed, the concrete for slab construction is poured so that the shear stud provided in the shear connecting plate is embedded in the concrete so that the concrete bottom plate is integrally bonded with the beam pillar. Characterized by the joining structure of the beam pillar and the concrete deck.

In the present invention as described above, the shear connection plate is attached to the shear studs can be fixed to the position to be in close contact with the section steel pillar by a binding member made of a band or the like. In the present invention, there is also provided a construction method for constructing such a joint structure.

According to the present invention as described above, it is possible to realize a slim concrete floor structure and a columnar structure of a small cross-section to reduce the height of the floor, it is possible to effectively construct a building structure of a form that minimizes the area occupied by the column.

Conventionally, it is difficult to manufacture the joints by welding the shear studs directly to the beam pillars, or by drilling holes in the beam pillars and installing them through steel brackets or rebars. In the present invention, the shear connecting plate is supported by the leaflet pressure strip in a state where the shear stud is attached to the shear connecting plate and is carried to the section steel column which is installed on the site with the leaflet pressure strip, and the working load is applied through bearing. By adopting a structure that delivers to the column, the amount of work required for the production of the joint portion is reduced, the cost is reduced, the effect of shortening the air is exerted.

In addition, when the shear studs are brought into the site while the shear studs are attached at the factory, the shear studs protrude on the outer surface of the steel column and the shear studs are damaged during the transportation, loading and installation process or are joined to the steel column. Although there was a problem of this destruction, in the present invention, since the shear connection device with the shear stud and the section steel column are separately transported and brought into the site, the structure is simply assembled on the site, and thus the damage of the shear stud and the like as before. The effect that can fundamentally block problems such as destruction of the joint is exerted.

In addition, in the present invention, it is possible to construct an efficient joint that can transfer a large load to a small contact area through bearing pressure at the contact surface of the upper end of the leaflet pressure band and the shear connecting plate.

Next, with reference to the drawings will be described the joining structure and the construction method of joining the beam and the concrete deck according to the present invention.

1 to 4 is a schematic view showing a process of forming a joining structure of the steel beam pillar and the concrete bottom plate according to an embodiment of the present invention. Specifically, FIG. 1 is a schematic perspective view showing a shape in which the leaflet pressure band 11 is installed on the section steel column 10 at a position where the section steel column 10 and the concrete bottom plate are joined. In the drawings, an embodiment consisting of H-beams is shown as the steel column 10, but in the present invention, the steel column 10 is not limited to the H-beam shown in the drawings, and various embodiments including the steel column of another embodiment described below. Shaped steel columns having a cross-sectional shape can be used.

As illustrated in FIG. 1, in the present invention, a vertical load transmitted from the concrete bottom plate to the outer surface of the section steel column 10 at the position at which the concrete bottom plate is joined, that is, the bottom plate joint, is transmitted to the section steel column 10. Leaflet pressure band 11 is provided integrally. The leaflet pressure band 11 is processed to fit the outer surface of the section steel column 10 and then integrally attached to the outer surface of the section steel column 10 by welding in the factory. Various welding methods may be used as a method of attaching the leaflet pressure band 11 to the outer surface of the shaped steel column 10 by welding. This will be described later.

In the present invention, the leaflet pressure band 11 has a function of transmitting the vertical load acting on the concrete floor plate 30 to the section steel column (10). That is, the concrete base plate 30 serves to support the concrete base plate 30 so as not to slip on the surface of the beam pillar (10).

On the leaflet pressure band 11 in the present invention, the shear stud 24 is provided with a shear connecting plate 22 integrally attached to the front surface. FIG. 2 is an assembly perspective view showing that the shear connecting plate 22 integrally attached to the front surface of the shear stud 24 is assembled to the section steel column 10 in the embodiment shown in FIG. 1, and FIG. It is an assembled perspective view showing a state in which the connecting plate 22 is installed on the leaflet pressure band 11 in close contact with the front surface of the beam pillar (10).

As shown in the figure, in the present invention, the shear connecting plate 22 is installed on the upper portion of the leaflet pressure band (11). Shear studs 24 protrude from the front end of the shear connecting plate 22 and are integrally attached. As such, the shear connecting plate 22 to which the shear stud 24 is attached is separately manufactured in advance and installed on the section steel pillar 10 in the field.

When the section steel column 10 is brought into the site with the leaflet pressure band 11 attached at the factory, the shear connecting plate 22 to which the shear stud 24 is attached is sheared before placing the bottom plate concrete. It is installed to be in close contact with the outer surface of the section steel pillar 10 over the pressure bar (11). That is, the lower surface of the shear connecting plate 22 is installed to be supported by the upper surface of the leaflet pressure band (11). The shear connecting plate 22 may be installed in close contact with the front surface of the section steel pillar 10 by a binding member. In the embodiment shown in FIG. 3, the band member 23 is formed of an iron wire or a band as the binding member. Shear connecting plate 22 was tied to the section steel column (10) using. The binding member has no role if it is cured after the concrete is placed, and only serves to keep the shear connecting plate 22 in place until concrete is poured. Of course, the binding member is not limited to the above band member 23, but may be another form, which will be described later. In addition, the method of fixing the shear connecting plate 22 to the front surface of the steel beam column 10 is not limited to using the above-mentioned binding member, shear connecting plate 22 using a variety of methods, including another method described below. ) Can be fixed to the front of the steel beam column 10 before concrete pouring.

When the shear connecting plate 22 having the shear stud 24 is installed to be supported by the leaflet pressure band 11 as described above, the shear stud 24 is poured into the concrete so as to be embedded in the concrete beam column 10 Produce a concrete floor plate 30 integrally with. If necessary, after installing the reinforcing bar reinforcing bar (not shown) necessary for the reinforcement of the concrete floor plate 30, the concrete is poured.

When the concrete is cured, the shear stud 24 and the shear connecting plate 22 embedded in the concrete bottom plate 30 have a vertical load acting on the concrete bottom plate 30 through the leaflet pressure strip 11. 10) serves to deliver. FIG. 4 is a schematic view showing the joint in the embodiment shown in FIG. 3, and FIG. 5 is a schematic cross-sectional view at the joint, in which the vertical load V ₁ acting on the concrete floor plate 30 is a shaped steel. Through the shear stud 24 and the shear connecting plate 22 coupled to the pillar 10 and embedded in the concrete of the bottom plate is collected in the leaflet pressure band 11 to form a beam (V ₂ ) 10) is delivered. Since steel has a high bearing strength, this load transfer method can efficiently transfer a large vertical load acting on the concrete deck 30 to the section steel column 10 with only a small area, so that the protrusion thickness of the leaflet pressure band is increased. Since it becomes small, it is very advantageous to install in the small drilling hole when the shaped steel column 10 to which the leaflet pressure band 11 is attached is applied especially to the top-down method in which the underground column should be pre-installed.

In the following, as a more specific supplementary description of the present invention described above, various methods of installing the leaflet pressure band 11 on the section steel column 10 will be described. 6A to 6C are schematic partial cross-sectional views showing a method of attaching the leaflet pressure strip 11 to the outer surface of the beam pillar 10. As shown in FIG. 6A, the lower portion of the leaflet pressure strip 11 is shown. FILLET WELD and GROOVE WELD can be welded at the top, and fillet welds can be made on both the upper and lower sides of the leaflet pressure band 11, as illustrated in FIG. 6B, and as illustrated in FIG. 6C. It is also possible to fillet weld only the lower portion of the shiatsu band 11.

FIG. 7A is a schematic perspective view showing another method of attaching the leaflet pressure band 11 to the outer surface of the beam pillar 10, and FIG. 7B is a cross-sectional view taken along the line A-A of FIG. 7A. As illustrated in the figure, a hole 12, such as a slot hole, may be formed in the leaflet pressure band 11, and a slot / plug weld may be performed in the hole 12. have. However, in the present invention, the method of attaching the leaflet pressure band 11 integrally to the outer surface of the shaped steel column 10 is not limited to the above welding method, and the above-described welding method may be combined, or else Various known welding methods and other attachment methods may also be used. Therefore, the method of attaching the leaflet pressure band 11 is to be understood as illustrative.

Next, with reference to Figs. 8 and 9 will be described a variety of methods for bringing the shear connecting plate 22 in close contact with the outer surface of the shaped steel column 10 and an example of another type of steel column to which the present invention is applied .

8 illustrates an exemplary embodiment in which the shear connecting plate 22 is installed in close contact with the shaped steel column 10 using a method other than the band member 23, and the shear connecting plate 22 is formed in the shaped steel column 10. In close contact with the front surface, as the binding member, the clip member 26 can be used as in the case of the left side of FIG. That is, the flange 101 of the section steel pillar 10 and the shear connecting plate 22 may be fastened to each other by using the clip member 26. In addition, as another method of closely installing the shear connecting plate 22 on the front surface of the beam pillar 10, as shown in the case of the right side of Figure 8 between the flange 101 and the shear connector plate 22 of the beam pillar (10) Alternatively, spot welding or spot welding 27 may be used. Of course, as described above, a method using a binding member such as a band member or a clip member and a welding method may be combined, or various other methods may be used. In addition, the shear stud 24 may be attached to the web portion of the shaped steel column 10 as shown in the figure.

FIG. 9 shows an embodiment in which a steel column 10 made of a combined steel as another embodiment of the steel column 10 is applied to the present invention.

On the other hand, in the present invention, there is no limitation in the form of the concrete floor plate 30, the bottom of the various types, including the bottom plate of the type in which the girder is integrally provided in the lower portion of the concrete floor plate 30 in addition to the flat plate. Plates may be applied. On the other hand, the term shear stud in the present specification should be interpreted to encompass all other types of shear connector, such as other reinforcing bars, brackets.

1 is a schematic perspective view showing a shape in which the leaflet pressure strip is installed on the section steel pillar in the present invention.

FIG. 2 is an assembly perspective view illustrating that the shear connecting plate provided with the shear stud is assembled to the section steel pillar in the embodiment illustrated in FIG. 1.

Figure 3 is an assembled perspective view showing a state in which the shear connecting plate in close contact with the front surface of the section steel using the band member installed on the leaflet pressure band.

4 is a schematic diagram showing the junction in the embodiment shown in FIG. 3.

FIG. 5 is a schematic cross-sectional view at the junction shown in FIG. 4. FIG.

6A to 6C are schematic partial cross-sectional views showing a method for attaching a leaflet pressure strip to the outer surface of a steel beam column according to the present invention, respectively.

FIG. 7A is a schematic view showing another method of attaching a leaflet pressure strip to an outer surface of a shaped steel column according to the present invention, and FIG. 7B is a cross-sectional view taken along the line A-A of FIG. 7A.

8 is a schematic perspective view of an embodiment showing that the shear connecting plate in close contact with the beam using a method other than the band member.

FIG. 9 is a schematic perspective view showing an embodiment in which a shaped steel pillar made of combined steel is applied to the present invention as another embodiment of the shaped steel pillar.

<Description of the code | symbol about the principal part of drawing>

10 ... steel pillars

11 ... shearing belt

22 ... Shear connector

24 ... shear studs

30 ... concrete bottom plate

Claims (4)

As a joining structure in which the shaped steel column 10 and the concrete base plate 30 are integrally bonded, Leaflet pressure band which transmits the vertical load from the concrete bottom plate 30 to the section steel column 10 on the outer surface of the section steel column 10 at the position where the section steel column 10 and the concrete bottom plate 30 are joined. (11) is integrally attached; On the upper part of the leaflet pressure band 11, a shear connecting plate 22 integrally attached to the front end of the leaf stud 24 protrudes on the front surface and closely adheres to the outer surface of the beam pillar 10 so that the leaflet pressure band 11 is provided. A lower portion of the shear connecting plate 22 is installed to be supported; In the state in which the leaflet pressure band 11 and the shear connecting plate 22 are installed, the concrete for the bottom plate construction is poured so that the shear stud 24 provided in the shear connecting plate 22 is embedded in concrete. Joining structure of the beam section and the concrete floor plate, characterized in that the plate 30 is integrally joined to the section beam pillar (10). The method of claim 1, The shear connecting plate 22 to which the shear stud 24 is attached is fixed to the beam pillar 10 by a binding member so that the shear connector 22 is installed in close contact with the beam pillar 10. Joining structure of section steel column and concrete deck. As a joining construction method of integrally joining the concrete base plate 30 to the section steel column 10, Leaflet pressure band which transmits the vertical load from the concrete bottom plate 30 to the section steel column 10 on the outer surface of the section steel column 10 at the position where the section steel column 10 and the concrete bottom plate 30 are joined. (11) is integrally attached; On the upper part of the leaflet pressure band 11, the leaflet pressure band in a state in which the shear connection plate 22 integrally attached to the front end of the leaf stud 24 is protruded on the front surface, in close contact with the outer surface of the section steel column 10. (11) is installed so that the lower portion of the shear connecting plate (22) is supported; In the state in which the leaflet pressure band 11 and the shear connecting plate 22 are installed, the concrete for the bottom plate construction is poured so that the shear stud 24 provided in the shear connecting plate 22 is embedded in the concrete. Joining construction method of the beam and the concrete floor plate, characterized in that the bottom plate 30 is constructed so as to be integrally bonded with the beam pillar (10). The method of claim 3, Fixing the shear connecting plate 22 to which the shear stud 24 is attached to the beam pillar 10 by a binding member so that the shear connector 22 is installed in close contact with the beam pillar 10. Joining construction method of the beam pillar and the concrete floor plate characterized in that.

Images