KR101875076B1 - Steel framed reinforced concrete structure using existing steel structure - Google Patents

Abstract

The present invention relates to a steel-reinforced concrete composite structure using a conventional steel structure that can be utilized as an exposure zone in a semiconductor process by sufficiently securing resistance to vibration by joining a cover plate to an outer side of a steel frame already installed and reinforcing concrete by pouring .
The steel reinforced concrete composite structure using the existing steel structure is related to steel reinforced concrete composite structure formed by reinforcing existing structures composed of steel column and steel beam, A column cover plate provided at a predetermined distance from the column; A beam lower cover plate which is provided at a lower portion of the existing steel beam and is spaced apart from the steel beam by a predetermined distance and has one end thereof mounted on the upper end of the column cover plate; A pair of beam side cover plates coupled to both sides of the beam lower cover plate to surround both sides of the steel beam; And concrete poured into the inside of the column cover plate and inside the beam lower cover plate and the beam side cover plate; . ≪ / RTI >

Description

Technical Field [0001] The present invention relates to a steel frame reinforced concrete structure using existing steel structure,

The present invention relates to a steel-reinforced concrete composite structure using a conventional steel structure that can be utilized as an exposure zone in a semiconductor process by sufficiently securing resistance to vibration by joining a cover plate to an outer side of a steel frame already installed and reinforcing concrete by pouring .

As a main structure of a structure, a steel structure constructed by joining and assembling steel members such as steel bars and steel plates can have a lightweight structure, a high-level structure, and a long-length structure with a high strength as compared with a reinforced concrete structure. In addition, due to the pre-assembly of members and the like, construction is easy and air shortening is possible, which is widely used for construction of various structures.

On the other hand, there is an exposure process in which a circuit pattern is drawn on the surface of a wafer by passing light through a mask when manufacturing semiconductors or the like.

Such an exposure process is a very fine operation that responds sensitively to extremely small vibrations. The exposure zone in which the exposure equipment is affected by vibration and the load of the exposure equipment is large so that the exposure process is performed is usually carried out by a reinforced concrete (RC).

However, in some cases, it may be necessary to change the general zone to be exposed by the steel frame to the exposure zone.

At this time, conventionally, it is most effective to remove the steel frame part and re-work with the reinforced concrete block. However, in the general zone already installed, various pipes are installed in a dense manner, so it is not easy to remove the existing steel frame part.

In order to solve the above-described problems, the present invention provides a steel frame structure using an existing steel structure that can be utilized as an exposure zone of a semiconductor process, Reinforced concrete composite structure.

According to a preferred embodiment of the present invention, there is provided a steel reinforced concrete composite structure formed by reinforcing an existing structure including a steel column and a steel beam. The steel reinforced concrete composite structure includes a steel column, A column cover plate provided spaced apart from each other; A beam lower cover plate which is provided at a lower portion of the existing steel beam and is spaced apart from the steel beam by a predetermined distance and has one end thereof mounted on the upper end of the column cover plate; A pair of beam side cover plates coupled to both sides of the beam lower cover plate to surround both sides of the steel beam; And concrete poured into the inside of the column cover plate and inside the beam lower cover plate and the beam side cover plate; Wherein the beam lower cover plate is vertically bent downward at its both ends to form a U-shape, the lower side cover plate is coupled to the outside of the coupling plate of the beam lower cover plate, Wherein a lower portion of the plate is coupled with a coupling plate of the lower cover plate by bolts and a coupling nut, the body of the bolt is longer than the coupling nut by a predetermined length so that the fixing nut is further coupled, The present invention provides a steel reinforced concrete composite structure using a conventional steel structure, which is characterized in that the bolt body is coupled with a ladder for suspending the equipment.
According to another preferred embodiment of the present invention, the column cover plate includes a pair of first column cover plates coupled to both sides of the steel column, the pair of first column cover plates formed at both ends of the columnar cover plate, And a second column cover plate coupled to the outside of the coupling plate of the first column cover plate of the first column cover plate.

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According to another preferred embodiment of the present invention, a bearing plate is coupled to the upper end of the column cover plate, and the beam lower cover plate is mounted on the upper surface of one side leg of the bearing plate. Structure.

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According to another preferred embodiment of the present invention, a plurality of upper fixing plates are coupled to the inside of the pair of upper side cover plates, and the upper fixing plate is supported on the upper side of the steel frame. Concrete composite structure.

According to another preferred embodiment of the present invention, at both ends of the upper fixing plate, a vertically bent coupling plate is provided, and the coupling plate is coupled to the inner side surface of the beam side cover plate, And the support plate is supported on the upper end of the coupling plate of the upper fixing plate. The present invention also provides a steel frame reinforced concrete composite structure using the conventional steel structure.

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According to the present invention, the cover plate is coupled to the outside of the steel column and the steel frame of the steel frame already installed, and the concrete is laid and reinforced by inserting the cover plate therein. Thus, the resistance against the vibration can be sufficiently secured, A concrete composite structure can be provided.

Therefore, it is possible to utilize the existing facilities and the steel structure part as it is, so that it is possible to secure constructability, economy, and shorten the construction time.

Further, in the case of joining the adjacent column cover plate or beam lower cover plate and the beam side cover plate by the coupling plate, the cover plates can be joined to each other by bolt and nut fastening without welding process, so that workability and safety are excellent.

1 is a perspective view showing a conventional steel frame frame.
2 is a perspective view showing a steel reinforced concrete composite structure using an existing steel structure of the present invention.
3 is a perspective view showing a coupling relationship between a steel column and a column cover plate;
Fig. 4 is a cross-sectional view showing a steel reinforced concrete column according to Fig. 3; Fig.
5 is a perspective view showing a coupling relationship between the column cover plate and the beam lower cover plate;
6 is a perspective view showing the details of the connection of the steel beam, beam lower cover plate and beam side cover plate.
FIG. 7 is a sectional view showing a steel reinforced concrete beam according to FIG. 6; FIG.
8 is a perspective view showing details of a steel-reinforced concrete composite structure according to the present invention.
9 is a sectional view showing a steel reinforced concrete beam according to an embodiment.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings and preferred embodiments.

2 is a perspective view showing a steel reinforced concrete composite structure using a conventional steel structure according to the present invention.

The present invention relates to a steel reinforced concrete composite structure capable of sufficiently securing resistance against vibration such as an exposure zone used in an exposure process of a semiconductor process by reinforcing an existing structure including a steel column (2) and a steel beam (3) .

As shown in FIG. 2, the steel-reinforced concrete composite structure using the conventional steel structure according to the present invention has a structure in which the steel columns 2 are spaced apart from the steel columns 2 so as to surround the steel columns 2 on four outer sides of the existing steel columns 2 The column cover plates 21, 22; A beam lower cover plate 31 provided at a lower portion of the existing steel beam 3 and spaced apart from the steel beam 3 by a predetermined distance and having one end fixed to the upper ends of the column cover plates 21 and 22; A pair of side cover plates (32) coupled to both sides of the beam lower cover plate (31) to surround both sides of the steel beam (3); And a concrete (C) laid inside the column cover plate (21) and inside the beam lower cover plate (31) and the beam side cover plate (32); . ≪ / RTI >

The steel column 2 and the steel beam 3 are a conventional steel structure part. In the present invention, the steel column part is reinforced with steel reinforced concrete composite structure without removing the existing steel part.

First, the column cover plates 21 and 22 are coupled to the outer four sides of the steel column 2 at the steel column 2, respectively.

The column cover plates 21 and 22 may be extended from the bottom of the column to the upper surface and the column cover plates 21 and 22 may be formed on the outer surface of the columnar column 2 Install it so that it is spaced apart by a certain distance.

A shear connector (SC) can be coupled to the inner surfaces of the column cover plates (21, 22).

Next, a beam lower cover plate 31 and a beam side cover plate 32 are provided on the lower and both sides of the steel beam 3, respectively.

The beam lower cover plate 31 and the beam side cover plate 32 are also spaced apart from the outer surface of the steel beam 3 so that the concrete C can be laid thereafter.

Concrete C is installed in the space formed by the four column cover plates 21 and 22 and in the spaces formed in the beam lower cover plate 31 and the beam side cover plate 32.

At this time, the column cover plates 21 and 22, the beam lower cover plate 31 and the beam side cover plate 32 serve as permanent molds, and the column becomes a CFT column and can function as a viewing TSC beam.

The concrete (C) is poured and cured to form a steel-reinforced concrete structure. As a result, it is possible to secure enough resistance against vibration owing to high rigidity and mass of concrete, and it is excellent in fire resistance as compared with existing steel structure.

In addition, since the steel column 2 and the steel beam 3 of the existing facilities and the steel structure are used without being disassembled, the steel is excellent in workability and economy, and is effective also in the shortening of the air.

FIG. 3 is a perspective view showing a coupling relation between a steel column and a column cover plate, and FIG. 4 is a sectional view showing a steel reinforced concrete column according to FIG.

As shown in FIGS. 3 and 4, the column cover plates 21 and 22 are coupled to both sides of the steel column 2, and the coupling plates 211 are vertically bent outward at both ends to form a U- A pair of first column cover plates 21 and a second column cover plate 22 coupled to the outside of the coupling plates 211 of the pair of first column cover plates 21.

When the first column cover plate 21 is formed in a U-shape as described above, the first and second column cover plates 21 and 21 are provided with a pair of adjacent coupling plates 211, And both ends of the second column cover plate 22 are bolt-engaged.

Therefore, the first column cover plate 21 and the second column cover plate 22 can be coupled to each other by fastening the bolts from the outside without a separate welding process.

A plurality of bolt fastening holes may be formed in advance at both ends of the coupling plate 211 and the second column cover plate 22 of the first column cover plate 21 for fastening bolts and nuts.

At the lower end of the column cover plates 21 and 22, both legs can be coupled to the upper surface of the floor slab 1 and the base plate 51 coupled to the side surfaces of the column cover plates 21 and 22.

The base plate 51 may have a cross-sectional shape and may be bolted to the side surfaces of the bottom slab 1 and the column cover plates 21 and 22.

The base plate 51 transmits the column load to the lower portion.

Fig. 5 is a perspective view showing a coupling relationship between the column cover plate and the beam lower cover plate.

5, a bearing plate 52 is coupled to the upper ends of the column cover plates 21 and 22 so that the beam lower cover plate 31 is mounted on the upper surface of one leg of the bearing plate 52. As shown in FIG. Can be configured.

When the bearing plate 52 is coupled to the upper ends of the column cover plates 21 and 22, the beam lower cover plate 31 can be mounted on the upper surface of the legs of the bearing plate 52,

The bearing plate 52 transmits a load to the column, and may have a cross-sectional shape.

The bearing plates 52 can be bolted to the side surfaces of the column cover plates 21 and 22 and the lower portion of the beam lower cover plate 31. For this purpose, A plurality of bolt fastening holes may be formed in advance in the column cover plates 21, 22 and the beam lower cover plate 31 at the corresponding positions.

FIG. 6 is a perspective view showing the details of the connection of the steel beam, beam lower cover plate and beam side cover plate, and FIG. 7 is a sectional view showing a steel reinforced concrete beam according to FIG.

6 and 7, the beam lower cover plate 31 is vertically bent downward at the both ends of the coupling plate 311 to form a U-shape, and the beam side cover plate 32 has a U- Can be configured to be coupled to the outside of the coupling plate (311) of the beam lower cover plate (31).

Accordingly, the bolt can be fastened to the outside from the outside without performing a separate welding process like the column cover plates 21 and 22 to join the beam lower cover plate 31 and the beam side cover plate 32 together.

A plurality of bolt fastening holes may be formed in the lower end of the side cover plate 32 to which the coupling plate 311 of the beam lower cover plate 31 and the coupling plate 311 are coupled.

6 and 7, a plurality of upper fixing plates 33 are coupled to the inner side of the upper side of the pair of side cover plates 32, As shown in Fig.

When the upper fixing plate 33 is provided on the inner side of the pair of side cover plates 32 as described above, the upper fixing plate 33 transmits the construction load of the beam to the steel beam 3. [

The upper side fixing plate 33 can be configured to hang the beam side cover plate 32 and the beam lower cover plate 31 from the steel beam 3.

A plurality of the upper fixing plates 33 are spaced apart from each other.

The upper fixing plate 33 may serve as a cradle for the upper reinforcing bars 6 of the beam.

The upper fixing plate 33 is provided at its both ends with a vertically bent coupling plate 331 so that the coupling plate 331 is coupled to the inner side surface of the beam side cover plate 32, A support plate 321 vertically bent to the inside is formed at the upper end of the plate 32 so that the support plate 321 can be supported on the upper end of the engagement plate 331 of the upper fixation plate 33.

When the engaging plate 331 is provided at both ends of the upper fixing plate 33 as described above, the engaging plate 331 and the opposite side cover plate 32 can be bolted to each other.

Similarly, a plurality of bolt fastening holes may be formed in advance at the upper end of the engaging plate 331 of the upper fixing plate 33 and the corresponding side cover plate 32 at the position corresponding thereto.

The upper end of the coupling plate 331 of the upper fixing plate 33 is connected to the upper end of the supporting plate 321 of the beam side cover plate 32, Side cover plate 32 and the upper fixing plate 33 are supported by each other when the beam side cover plate 32 is installed on the lower side of the base plate 321,

8 is a perspective view showing details of a steel-reinforced concrete composite structure according to the present invention.

The steel reinforced concrete composite structure using the existing steel structure of the present invention shown in FIG. 8 can be constructed through the following process.

First, the column portion of the steel frame frame made up of the existing steel column 2 and the steel frame 3 is first constructed.

That is, a pair of first column cover plates 21 are provided on the outside of the steel column 2.

At this time, the first column cover plate 21 can be fixed to the bottom slab 1 using the base plate 51.

And the other pair of second column cover plates 22 are installed between the first column cover plates 21.

The second column cover plate 22 is also fixable to the bottom slab 1 using the base plate 51.

When the coupling plate 211 is provided at both ends of the first column cover plate 21, the end of the second column cover plate 22 is coupled to the coupling plate 211 from the outside of the coupling plate 211 can do.

Next, the beam lower cover plate 31 is installed.

At this time, the bearing plate 52 may be coupled to the upper end of the column cover plates 21 and 22, and the beam lower cover plate 31 may be fixed to the upper end of the bearing plate 52.

Then, a plurality of upper fixing plates 33 are provided on one side beam side cover plate 32 after the one side beam side cover plate 32 is installed.

When the end portion of the beam lower cover plate 31 is provided with a vertically bent coupling plate 311, the beam side cover plate 32 can be coupled to the coupling plate 311.

When the coupling plate 331 is vertically bent at the upper end of the upper fixing plate 33, the coupling plate 331 of the upper fixing plate 33 can be coupled to the side cover plate 32 have.

Then, the other side beam side cover plate 32 is installed.

The lower and upper portions of the other side beam side cover plate 32 can be coupled to the coupling plate 311 of the beam lower cover plate 31 and the coupling plate 331 of the upper fixing plate 33, respectively.

At this time, the grid joint connecting angles 53 may be provided on the sides of the beams orthogonal to each other as shown in FIG.

The lattice beam joint angle angle (53) is fixed to each beam side cover plate (32) of the orthogonal beam by both legs to stably fix the position.

After the cover plate is installed on the outer side of the column and the beam as described above, the upper reinforcing plate 6 is placed on the upper fixing plate 33 and the concrete (C) is poured and cured in the column and beam to complete the construction do.

9 is a cross-sectional view illustrating a steel reinforced concrete beam according to an embodiment.

9, a lower portion of the beam side cover plate 32 is coupled to the coupling plate 311 of the beam lower cover plate 31 by a bolt B and a coupling nut N1, The body of the bolt B is formed to be longer than the bolt N1 so that the bolt B between the bolt N1 and the bolt N2 is fitted to the body of the bolt B, And a month bar 7 for hanging can be combined.

There are a lot of cases where a hanger is installed in the lower part of the beam to install ceiling materials, ducts, cable trays and piping. For the installation of such a month, it is very troublesome to install a set anchor in the reinforced concrete tank by drilling the concrete.

On the other hand, in the present invention, the cross bar 7 is easily installed using bolts B and nuts for joining the beam side cover plate 32 and the beam lower cover plate 31.

That is, when the beam side cover plate 32 and the beam lower cover plate 31 are bolted together, the beam 7 is coupled between the fastening nut N1 fastened to the body of the bolt B and the fastening nut N2 It is possible to connect the month bar 7 with ease.

A flat bar having an engaging hole capable of engaging with the body of the bolt (B) may be used for the cross bar (7).

The engaging hole of the flat bar as the caliper 7 is inserted into the body of the bolt B while the engaging nut N1 is fastened to the body of the bolt B and the fastening nut N2 is fastened, Can be fixed.

The lances 7 can be selectively coupled using a fixing nut N2 only when necessary.

1: floor slab 2: steel column
21: (first) column cover plate 211: engaging plate
22: (second) column cover plate 3: steel frame
31: beam lower cover plate 311: engaging plate
32: beam side cover plate 321: support plate
33: upper fixing plate 331: engaging plate
51: base plate 52: bearing plate
53: Grating beam joint angle 6: Upper reinforcing bar
7: month B: bolt
C: Concrete N1: Clamping nut
N2: Fixing nut SC: Shear connector

Claims (7)

A steel reinforced concrete composite structure formed by reinforcing an existing structure including a steel column (2) and a steel beam (3)
Column cover plates (21, 22) spaced apart from the steel column (2) by a predetermined distance so as to surround the steel column (2) on the outer four sides of the existing steel column (2);
A beam lower cover plate 31 provided at a lower portion of the existing steel beam 3 and spaced apart from the steel beam 3 by a predetermined distance and having one end fixed to the upper ends of the column cover plates 21 and 22;
A pair of side cover plates (32) coupled to both sides of the beam lower cover plate (31) to surround both sides of the steel beam (3); And
Concrete (C) laid inside the column cover plate (21) and inside the beam lower cover plate (31) and the beam side cover plate (32); Respectively,
The beam lower cover plate 31 is vertically bent downward at its both ends to form a U-shape, and the beam side cover plate 32 has a lower portion which is engaged with a coupling plate (not shown) of the beam lower cover plate 31 311,
The bottom of the beam side cover plate 32 is coupled to the coupling plate 311 of the beam lower cover plate 31 by the bolts B and the coupling nuts N1 and the body of the bolts B is fastened A fixing nut N2 is further formed to be longer than the nut N1 and a bolt 7 for hanging the installation is attached to the bolt B between the fixing nut N1 and the fixing nut N2 Reinforced concrete composite structure using a conventional steel structure.
The method of claim 1,
The column cover plates 21 and 22 are coupled to both sides of the steel column 2 and include a pair of first column cover plates 21 formed at both ends of the column cover plates 21 so as to be U- And a second column cover plate (22) coupled to the outside of the coupling plate (211) of the pair of first column cover plates (21).
The method of claim 1,
A bearing plate 52 is coupled to an upper end of the column cover plates 21 and 22 so that the beam lower cover plate 31 is mounted on the upper surface of one side of the bearing plate 52. [ Steel reinforced concrete composite structure.
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A plurality of upper fixing plates 33 are coupled to the inside of the pair of side cover plates 32 and the upper fixing plate 33 is supported on the upper side of the steel beam 3. [ Steel reinforced concrete composite structure.
The method of claim 5,
At both ends of the upper fixing plate 33 are vertically bent coupling plates 331 so that the coupling plates 331 are coupled to the inner side surfaces of the beam side cover plates 32,
A support plate 321 vertically bent inward is formed at the upper end of the beam side cover plate 32 so that the support plate 321 is supported at the upper end of the coupling plate 331 of the upper fixing plate 33 Steel Reinforced Concrete Composite Structure Using Existing Steel Structure.
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