KR20090083298A - New RC Floor ― to ― Steel Column Connection Details Consisting of Steel Shear-Bearing Band and Steel Plates with Shear Heads for Preventing Slip and Strengthening Punching Shear Strength of Slab - Google Patents

Abstract

A junction of a steel column and a concrete deck-plate using a shear-bearing band and a shearing connector and a joining construction method thereof are provided to make the thickness of the concrete deck-plate by reinforcing the punching shear to a slab of the steel column surrounding. A junction of a steel column and a concrete deck-plate comprises the steel column(10) and the concrete deck-plate. A shear-bearing band(11) is integrally attached to the point where the steel column and the concrete deck-plate are connected integrally. The shear-bearing band delivers the vertical load to the steel column from the concrete deck-plate. A shearing connector is installed at the front direction of the steel column. The shearing connector prevents the punching shear at the steel column surrounding. The lower surface of the punching shear reinforcing member(21) of the shearing connector is supported with the upper surface of the shear-bearing band while connecting. The punching shear reinforcing member of the shearing connector and the shear-bearing band are buried with the poured concrete.

Description

New RC Floor ― to ― Steel Column Connection Details Consisting of Steel Shear-Bearing Band and Steel Plates with Shear Heads for Preventing Slip and Strengthening Punching Shear Strength of Slab}

The present invention relates to a joint structure of a steel column and a concrete floor plate using a leaflet pressure strip and a shear connection device, and a method of constructing the same. By installing a mechanical shear connection device and firmly joining the steel column to the concrete slab, it is possible to install a slim bottom plate by reinforcing the punching shear on the floor slab around the steel column. It relates to the joining structure of steel column and concrete deck of the type 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 the case of using a steel column, the material difference between the column and the base plate, that is, the heterogeneity between the column made of steel and the base plate made of concrete, Since the bottom plate is not integrated, measures to prevent it are necessary. That is, it is necessary to prevent slippage on the surface of the steel column and to reinforce punching shear that may occur in the concrete around the column.

Conventionally, for this purpose, a method of welding a shear head, a shear stud, and a reinforcing bar of a bottom slab directly to an outer surface of a steel column, or a method of penetrating a reinforcing bar of a shear head or a bottom slab through a steel column, has been proposed. By the way, this method requires a lot of welding work, or a complex and a lot of work, such as drilling a hole in the steel pole and through the hole to install the shear head, rebar, etc. There is a disadvantage of increasing time and cost.

In addition, when the shear head is attached to the factory in advance and brought into the site, the shear head is protruded, so that the work of transferring the column to the site and the installation work on the site become very cumbersome, and the projecting process of the shear head is performed. There is a disadvantage in that the shear head, etc. are damaged or fall off the column occurs.

Furthermore, when the shear head is directly attached to the steel pole in the field, stress is concentrated on the weld of the shear head and the steel pole due to the structural characteristics of the bottom plate, which may cause partial breakage of the weld of the shear head and the steel pole. This is a very high problem.

The present invention has been developed to solve the problems of the prior art as described above, in forming the joint structure of the steel column and concrete slab, effectively prevents the slip (slip) on the surface of the steel column and to the concrete around the column While providing sufficient reinforcement for the punching shear that may occur, it reduces the welding work for steel columns, eliminates the need for penetrating the reinforcement on the cumbersome columns, and welds to the columns during the site transfer of the steel columns. It is an object of the present invention to prevent an increase in work costs and air by preventing the shear head from being damaged or broken.

In order to achieve the above object, in the present invention, the steel column and the concrete bottom plate as a joining structure integrally bonded, the vertical load from the concrete bottom plate on the outer surface of the steel column at the position where the steel column and the concrete bottom plate are joined. The leaflet pressure band for transmitting the steel pillars is integrally attached; Shear connection in the front direction of the steel column, including a punching shear reinforcement protruding from the steel column to extend beyond the punching shear fracture surface in order to prevent the punching shear fracture from occurring around the steel pillar. The device is installed, the lower surface of the end of the shear connector is in contact with the upper surface of the leaflet pressure band is installed in a state that the end surface of the shear connection device is supported by the leaflet pressure band; The joint structure of the steel pillars and the concrete bottom plate is provided, characterized in that the concrete is laid so that the leaflet pressure band and the punching shear reinforcement of the shear connection device is embedded and the concrete bottom plate is integrally bonded with the steel column. do.

In the bonding structure of the present invention as described above, the shear connecting device may be further provided with a shear connecting plate, the punching shear reinforcement is integrally attached to the front surface of the shear connecting plate, the shear connecting plate is the steel pillar It is installed in close contact with the outer surface of, the lower surface of the shear connecting plate is supported by the upper surface of the leaflet pressure band. Shear studs may be further installed on the shear connecting plate to prevent slippage.

In addition, in the present invention, the punching shear reinforcement may be composed of a shear head, a stud rail having a shear stud protrudingly attached to the plate member, or a combination thereof. Of course, as described below, various forms of punching shear reinforcement may be used in addition to those illustrated herein.

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 the shape that minimizes the area occupied by the column.

Conventionally, it is difficult to manufacture a joint part by directly attaching a shear head to a steel pole by attaching it to a steel pole, or by drilling a hole in the steel pole and installing it through a shear head or reinforcing bar. In the present invention, the leaflet pressure band is installed and supported on the steel column brought into the site, and the shear stud is attached to the shear connection plate, and the shear connection plate is supported by the leaflet pressure band, thereby acting through bearing. By adopting a structure that transmits the load to the column, the amount of work required for the fabrication of the joint is reduced to reduce the cost and reduce the air.

In addition, when the shear head is brought into the site with the shear head attached at the factory, the shear head protrudes to the outer surface of the steel pole, and the shear head is damaged during transportation, loading and installation, or is joined to the steel pole. Although there was a problem of this breakdown, in the present invention, since the shear connection device and the steel column, which are composed of the shear head and the like, have a structure that is simply assembled at the site after being transported and brought into the site separately, the damage of the shear head or the like as in the prior art The effect that can fundamentally block problems such as destruction of the joint is exerted.

On the other hand, in the prior art, since the shear head and the like are directly welded and attached to the steel pillar, stress concentration may occur at the junction of the shear head and the steel pillar when a large external force is applied, and deformation or breakage of the joint may occur. However, according to the present invention, since the shear head is not directly welded to the steel column, it is installed on the leaflet pressure band to transmit the working load to the column through bearing pressure of the contact surface, thereby increasing the flexibility at the joint, and thus, There is an effect that can prevent the destruction that can occur in advance.

In addition, in the present invention, it is possible to form an efficient joint that can transfer a large load to a small contact area through acupressure 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 of the steel pillar and concrete floor plate and the joining construction method according to the present invention.

1 to 4 are schematic views showing a process of forming a joining structure of a steel column and concrete deck according to an embodiment of the present invention. In the embodiment shown in Figures 1 to 4, the steel column 10 is composed of a rectangular steel pipe having a rectangular hollow cross section, in the present invention, as described later, the steel column 10 is not limited to the rectangular steel pipe as shown It can be composed of columns of various shapes.

FIG. 1 is a schematic perspective view showing a shape in which a leaflet pressure band 11 is installed on a steel pillar 10 at a position where a steel pillar 10 made of a square steel pipe having a rectangular hollow cross section and a concrete bottom plate are joined. . As illustrated in FIG. 1, in the present invention, a position at which the concrete bottom plate is joined, that is, a vertical load transmitted from the concrete bottom plate to the outer surface of the steel pillar 10 at the bottom plate joint is transmitted to the steel pillar 10. Leaflet pressure band 11 is provided integrally. The leaflet pressure band 11 is processed to fit the outer surface of the steel column 10 and then integrally attached to the outer surface of the steel column 10 by welding in the factory.

As will be described later, in the present invention, the steel column 10 may be made of a circular steel pipe or a section steel of various cross-sectional shapes. In this case, the leaflet pressure band 11 may be adapted to the outer surface of the circular steel pipe, or the flange of the section steel. In accordance with the integrally attached to the outer surface of the steel column (10). The drawing showing a state of the embodiment in which the leaflet pressure band 11 is installed in the circular steel pipe and the shaped steel will be described later. Various welding methods may be used as a method of attaching the leaflet pressure band 11 to the outer surface of the steel pillar 10 by attaching the leaflet pressure band 11. This will also be described later.

In the present invention, the leaflet pressure band 11 has a function of transmitting the vertical load acting on the concrete base plate 30 to the 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 steel column 10.

In the present invention, the shear connecting device is installed on the leaflet pressure band (11). FIG. 2A shows that in the embodiment shown in FIG. 1, the shear connection device composed of a punching shear reinforcement 21 composed of a shear head of an H-beam (also referred to as I-beam) is assembled and attached to the steel column 10. FIG. 2B is an assembled perspective view illustrating the state in which the punching shear reinforcement 21 is closely attached to the front surface of the steel column 10 using the binding member 23 and installed on the leaflet pressure band.

As shown in the figure, in the present invention, the shear connecting device is installed on the top of the leaflet pressure band (11). In the illustrated embodiment, the shear connection device comprises a punching shear reinforcement 21 protruding in the front direction of the steel column 10, in particular, the shear of the H-shaped steel as the punching shear reinforcement 21. A shear head was used. The punching shear reinforcement 21 has a function of preventing punching shear failure from occurring in the bottom plate (concrete slab) around the steel pillar 10 and preventing slipping (slip) from occurring. It is installed to prolong and protrude beyond the punching shear fracture surface from the steel column 10 and is embedded in the concrete floor plate.

When the steel pole 10 is brought to the site with the leaflet pressure band 11 attached at the factory, before the bottom plate concrete is poured, the shear connecting device is placed on the steel pole 10 over the leaflet pressure band 11. Is installed on the outer surface of the. That is, the lower end of the punching shear reinforcement 21 of the shear connection device is installed to be supported by the upper surface of the leaflet pressure band (11).

An example of a method of installing the punching shear reinforcement 21 on the outer surface of the steel column 10 so that the punching shear reinforcement 21 is supported by the leaflet pressure band 11 is a band member 23 made of an iron wire or a band as shown in FIG. 2B. The shear connection device, that is, the punching shear reinforcement 21 until the concrete is laid for the construction of the concrete slab 30 as described below by penetrating the punching shear reinforcement 21 to surround the steel pillar 10. Can be held in place. Of course, in addition to the above method, the end surface of the punched shear reinforcement 21 is in close contact with the outer surface of the steel column 10 to the contact portion (Tack Welding) or spot welding (Spot Welding) the position Although not shown in the drawings, the punched shear reinforcement 21 is directly placed on the reinforcing bars arranged for the concrete floor plate 30, or a spacer such as a supporter is supported on the reinforcing bars. The end face of the punched shear reinforcement 21 is temporarily mounted on the outer surface of the steel pillar 10 by temporarily supporting the lower portion of the punched shear reinforcement 21 by installing a supporter on a formwork for installing or bottom plate construction. It can be kept in close contact. In addition, the punching shear reinforcement 21 to maintain the state in close contact with the front surface of the steel column 10 in a variety of other ways, including a combination of the use of the band member, welding and supporter support as described above. Can be. The temporary support method for punching shear reinforcement 21 as described above is also applied to a structure having a shear connecting plate to be described later.

When the end of the shear connection device is installed to be supported by the leaflet pressure band 11 as described above, by pouring the concrete so that the punching shear reinforcement 21 of the shear connection device is embedded in the concrete integrally with the steel column (10) Produce a concrete floor plate (30). 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 connection device embedded in the concrete bottom plate 30 serves to transfer the vertical load acting on the concrete bottom plate 30 to the steel column 10 through the leaflet pressure band 11. Figure 3 schematically shows a cross-sectional view at the joint, the vertical load (V ₁ ) acting on the concrete floor plate 30 is coupled to the steel column 10 and the shear connection device embedded in the concrete of the floor plate Collected in the leaflet pressure band 11 through it is transmitted to the steel column 10 in the form of a load (V ₂ ). That is, the shear force due to the vertical load is applied to the leaflet pressure band 11 supporting the end portion through the punching shear reinforcement 21, and eventually the steel column 10 to which the leaflet pressure band 11 is integrally attached. Is passed to. Since steel has high bearing strength, this load transfer method can efficiently transfer a large vertical load acting on the concrete deck 30 to the 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 it in the small drilling hole when applying the steel column 10 which attached the leaflet pressure band 11, especially in the top-down method which should pre-install an underground column.

In the present invention, the punching shear reinforcement 21 may be composed of a shear head, the shear head may have a variety of shapes. 4 to 6 are views corresponding to FIG. 2, which illustrate embodiments using various types of shear heads. First, in the embodiment shown in FIG. 4, the shear head forming the punching shear reinforcement 21 is made of inverse T-shaped steel, and in the embodiment shown in FIG. 5, it is made of prefabricated C-shaped steel, and is shown in FIG. The example consists of prefabricated L-shaped steel. On the other hand, the punching shear reinforcement 21 may be made of a stud rail with a shear stud 24 protrudingly attached to the plate member 25 as shown in Figure 7, as shown in Figure 8, the punching shear The reinforcement 21 may be used in combination of various kinds. In addition, various forms of punching shear reinforcements other than those illustrated herein may be used. In FIG. 7, member number 23 is a band member 23 made of an iron wire or a band for maintaining the position of the stud rail on the outer surface of the steel column 10 until the concrete is placed for the bottom plate construction.

Meanwhile, in the present invention, the shear connecting device may further include a shear connecting plate 22 in addition to the punching shear reinforcement 21. That is, the shear connecting device is composed of a shear connecting plate 22 and the punching shear reinforcement (21). 9 and 10 show an exploded perspective view and an assembled perspective view showing an example in which the shear connection device is configured by the punching shear reinforcement 21 and the shear connecting plate 22 and installed on the steel column 10. As shown in the figure, when the shear connecting device is composed of a shear connecting plate 22 and a punching shear reinforcement 21, the punching shear reinforcement 21 protrudes in front of the shear connecting plate 22 in the factory It is assembled integrally in the form, and is brought into the site in the assembled state so as to be installed on the steel pole (10).

Specifically, as shown in the drawing, the shear connecting plate 22 is installed in close contact with the outer surface of the steel pole 10, the lower end of the shear connecting plate 22 is a leaflet pressure band attached to the steel pole 10 (11) is to be installed so that the lower surface of the shear connecting plate 22 is supported by the upper surface of the leaflet pressure band (11). The shear connection plate 22 may have a variety of shapes according to the shape of the steel column, as shown in the figure, as well as the plate shape, may be made of a band form surrounding the entire pillar, or made to form only a portion of the pillar You may lose.

The shear connecting plate 22 may be fixed by using a binding device so that the shear connecting plate 22 is installed in close contact with the steel column 10 until the concrete is laid. As illustrated in FIG. As the binding device, the shear connecting plate 22 may be tied to the steel column 10 using a band member 23 made of an iron wire or a band. The temporary band member 23 has no role when cured after the concrete is placed, and only serves to keep the shear connection device in place until concrete is poured.

As such, after the shear connection device is installed in close contact with the steel pillars 10, the steel pillars are formed by pouring concrete such that the punching shear reinforcement 21 of the shear connection device is embedded in concrete, as in the above-described embodiment. 10) to manufacture a concrete floor plate 30 integrally. 11A shows a perspective view showing the joint and FIG. 11B schematically shows a cross-sectional view at the joint, in which the vertical load V ₁ acting on the concrete deck 30 is coupled to the steel column 10. And it is collected in the leaflet pressure band 11 through a shear connection device embedded in the concrete of the bottom plate is transferred to the steel column 10 in the form of a load (V ₂ ). That is, the shear force due to the vertical load is transmitted to the shear connecting plate 22 through the punching shear reinforcement 21, the shear force transmitted to the shear connecting plate 22 is the steel pole 10 through the leaflet pressure band (11) ) Is delivered.

12 to 16 are views corresponding to FIG. 10, respectively, and the shear connecting device is configured such that the punching shear reinforcement 21 of various forms shown in FIGS. 4 to 8 is attached to the shear connecting plate 22. Is a perspective view showing a state attached to the steel pole (10).

Meanwhile, in the present invention, the shear stud 24 may be further installed in the shear connection device as a slip reinforcement to prevent slippage between the outer surface of the steel column 10 and the concrete bottom plate 30. FIG. 17 illustrates an embodiment in which the shear stud 24 is further provided on the front surface of the shear connecting plate 22 in the embodiment shown in FIG. 10. Through the installation of the shear stud 24 as described above, the effect of preventing the slip between the outer surface of the steel column 10 and the concrete bottom plate 30 is exhibited. Although not shown, the shear connection device 20, which uses various types of shear heads as the punching shear reinforcement 21, including the embodiment shown in FIGS. 12 to 16, is also shear connected as shown in FIG. Shear stud 24 may be installed on the front of the plate 22, of course.

In the following, as a more detailed supplement to the present invention described above, various methods of installing the leaflet pressure band 11 to the steel column 10 will be described. 18A to 18C show a schematic partial cross-sectional view showing a method of attaching the leaflet pressure strip 11 to the outer surface of the steel column 10, as shown in FIG. 18A, the lower portion of the leaflet pressure strip 11. FILLET WELD and GROOVE WELD at the top, and fillet welds on both the upper and lower sides of the leaflet band 11 as illustrated in FIG. 18B, and shear as illustrated in FIG. 18C. It is also possible to fillet weld only the lower portion of the shiatsu band 11.

FIG. 19A shows a schematic perspective view showing another method of attaching the leaflet pressure band 11 to the outer surface of the steel column 10, and FIG. 19B shows a cross sectional view along line A-A of FIG. 19A. 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 integrally attaching the leaflet pressure band 11 to the outer surface of the 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.

In the following, various types of steel pillars to which the present invention is applied will be described with reference to FIGS. 20 to 22, and various methods of bringing the shear connecting plate 22 into close contact with the outer surface of the steel pillar 10 will be described.

20 illustrates an embodiment made of H-shaped steel as an example of the steel column 10. As such, when the shear connecting plate 22 of the shear connecting device is closely installed on the front surface of the steel pillar 10 made of the H-shaped steel, the H-shaped steel is used by using the clip member 26 as the binding member as in the case of the left side of FIG. The flange 101 and the shear connecting plate 22 may be fastened to each other. In addition, as shown in the case of the right side of FIG. 20, a tack welding or a spot welding 27 may be performed between the flange 101 of the H-shaped steel and the shear connecting plate 22. Of course, as in the case of FIG. 10, the band member 23 may be used, or 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 the case of using the H-beam as the steel column, the shear stud 24 may be attached to the web portion of the H-beam as shown in the drawing.

Meanwhile, as shown in FIG. 21, the combined section steel may be used as the steel column 10, and as illustrated in FIG. 22, a circular steel pipe may be used as the steel column 10, and the concrete filled steel pipe may be filled in the steel pipe. Concrete filled steel tubular columns can also be used. In addition, as shown in FIG. 22, the shear connecting plate 22 of the shear connecting device 20 may be divided into a plurality.

In the present invention, there is no limitation in the form of the concrete floor plate 30, in addition to the flat plate, the bottom plate of various types, including the bottom plate of the type which is provided integrally with the bottom of the concrete floor plate 30, etc. It may be. 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 a steel pillar in the present invention.

Figure 2a is an assembly perspective view showing that the shear connection device consisting of a punching shear reinforcement made of the shear head of the H-shaped steel in the embodiment shown in Figure 1 is attached to the steel pole, Figure 2b is punching using the binding member Shear reinforcement is in close contact with the front of the steel column assembly perspective showing the state installed on the leaflet pressure band.

3 is a schematic cross-sectional view of the junction formed by the embodiment shown in FIG. 2A.

Figures 4 to 6 are views corresponding to Figure 2, respectively, is a schematic assembly perspective view showing an embodiment of the present invention using various types of shear heads.

7 is a schematic assembly perspective view showing an embodiment in which a stud rail is used as a punching shear reinforcement.

8 is a schematic assembly perspective view showing an embodiment in which various kinds of punching shear reinforcements are used in combination.

9 and 10 are an exploded perspective view and an assembled perspective view showing an embodiment in which a shear connection device is formed by a punching shear reinforcement and a shear connecting plate, respectively, installed on a steel column as another embodiment of the present invention.

FIG. 11A is a schematic diagram showing the junction in the embodiment shown in FIG. 10, and FIG. 11B is a schematic cross-sectional view at the junction.

12 to 16 are views corresponding to FIG. 10, respectively, in which punching shear reinforcements of various shapes shown in FIGS. 4 to 8 are attached to a shear connecting plate to form a shear connection device attached to a steel pillar. Schematic diagram showing the state.

17 is a schematic view showing an embodiment in which a shear stud is installed on the front surface of the shear connecting plate.

18A to 18C are schematic partial cross-sectional views illustrating a method of attaching a leaflet pressure strip to an outer surface of a steel column according to the present invention, respectively.

19A is a schematic view showing another method of attaching a leaflet pressure strip to an outer surface of a steel pillar in the present invention, and FIG. 19B is a cross-sectional view taken along the line A-A of FIG. 19A.

20 is a schematic view showing an embodiment in which the steel pillars are made of H-shaped steel as an example of the steel pillars applied to the present invention.

Figure 21 is a schematic diagram showing an embodiment using a combination steel as a steel pillar as an example of a steel pillar applied to the present invention.

22 is a schematic diagram showing an embodiment in which a steel pillar is formed of a circular steel pipe as an example of a steel pillar applied to the present invention.

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

10 ... steel columns

11 ... shearing belt

21 ... punching shear reinforcement

22 ... Shear connector

30 ... concrete bottom plate

Claims (5)

As a joining structure in which the steel column 10 and the concrete bottom plate 30 are integrally bonded to each other, Leaflet pressure band for transmitting the vertical load from the concrete bottom plate 30 to the steel column 10 on the outer surface of the steel column 10 at the position where the steel column 10 and the concrete bottom plate 30 are joined. (11) is integrally attached; In the front direction of the steel pillars 10, protrudes longer than the punching shear fracture surface from the steel pillars 10 to prevent punching shear fracture from occurring around the steel pillars 10 of the bottom plate. Shear connecting device is configured to include a punching shear reinforcement 21 is provided, the bottom end of the punching shear reinforcement 21 is in contact with the upper surface of the leaflet pressure band 11 and the leaflet pressure band 11 The end lower surface of the punching shear reinforcement (21) is installed in a supported state by; Concrete is poured so that the leaflet pressure band 11 and the punching shear reinforcement 21 of the shear connecting device are embedded, and the concrete bottom plate 30 is integrally bonded to the steel column 10. Joining structure of steel column and concrete deck. The method of claim 1, The shear connection device is further provided with a shear connection plate 22, The punching shear reinforcement 21 is integrally attached to the front surface of the shear connecting plate 22, The shear connecting plate 22 is installed in close contact with the outer surface of the steel column 10, Joining structure of the steel pillar and the concrete bottom plate, characterized in that the lower surface of the shear connecting plate 22 is supported by the upper surface of the leaflet pressure band (11). The method according to claim 1 or 2, The punching shear reinforcement 21 is a joint of the steel pole and the concrete bottom plate, characterized in that the shear head, or a stud rail with a shear stud 24 protrudingly attached to the plate member 25, or a combination thereof. rescue. As a joining construction method of integrally joining the concrete base plate 30 to the steel column 10, Leaflet pressure band for transmitting the vertical load from the concrete bottom plate 30 to the steel column 10 on the outer surface of the steel column 10 at the position where the steel column 10 and the concrete bottom plate 30 are joined. (11) is integrally attached; In the front direction of the steel pillars 10, protrudes longer than the punching shear fracture surface from the steel pillars 10 to prevent punching shear fracture from occurring around the steel pillars 10 of the bottom plate. Install a shear connecting device comprising a punching shear reinforcement is to be 21, the bottom end of the punching shear reinforcement 21 is in contact with the upper surface of the leaflet pressure band (11) the leaflet pressure band (11) Installing a shear connection device such that an end lower surface of the punching shear reinforcement 21 is supported; Concrete is installed so that the leaflet pressure band 11 and the punching shear reinforcement 21 of the shear connecting device are embedded so that the concrete bottom plate 30 is integrally bonded with the steel column 10. Joining construction method of steel column and concrete deck. The method of claim 4, wherein The shear connection device is further provided with a shear connection plate 22, After the punching shear reinforcement 21 is integrally attached to the front surface of the shear connecting plate 22 to produce a shear connecting device, The shear connecting device is manufactured by transferring the shearing device to the steel column 10 installed in the field, so that the lower surface of the shear connecting plate 22 is supported by the upper surface of the leaflet pressure band 11. Bonding construction method of the steel pillars and concrete floor plate, characterized in that the concrete is poured after the steel pillars are installed in close contact with the outer surface.

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