KR19990042947A - Support structure of slab for high rise apartment - Google Patents

Abstract

The present invention relates to the construction of high-rise apartments in steel frame, and in particular to the support structure of the slab for high-rise apartments to enable efficient use of space while the overall unit floor height can be low, briefly explaining the basic technical configuration, A lower flange 13 is formed at the lower end of the web 11 and an upper flange 14 is formed at the upper end thereof, and the slab plate body 20 supported and installed on the H-shaped steel beam 10. And the lower surface of the slab plate body 20 is supported over the upper surface of the lower flange 13 of the H-beam, and the thickness of the slab plate body 20 is defined by the upper flange 14 of the H-beam. It is formed between the lower flange 13 and the upper flange 14 without exceeding.

Description

Support structure of slab for high rise apartment

The present invention relates to the construction of high-rise apartments in steel frame, and more particularly, to a support structure of a high-rise apartment slab that allows efficient use of space while constructing a low overall unit floor height.

In general, when high-rise apartments are constructed with steel frames, it is customary to construct them with reinforced concrete, not with steel frames, despite the advantages that construction is convenient and the construction period is greatly shortened and structurally strong. This is because steel frame has a higher unit cost than reinforced concrete, but because the unit floor height is high, space utilization is inferior.

In other words, when the apartment is constructed with steel frame, the slab plate on the upper flange of the H-beam is supported, so that the height of the unit floor is not only as high as the dance of H-beam, but also under the lower flange of the H-beam. Since there is no choice but to install the ceiling panel, it becomes a pointless space that cannot utilize the space at all as the dance of H-type Kangbo.

Therefore, the conventional high-rise apartments are constructed of steel frames, the slab plate is supported on the upper flange of the H-beam, and the ceiling panel is installed on the lower portion of the lower flange. First, the unit floor is constructed as high as the dance of the H-beam. There was a problem that the construction cost is increased, and second, there is a problem such that the space can not be utilized as the dance of H-beams.

Accordingly, an object of the present invention is to provide a support structure for a high-rise apartment slab that can increase the space utilization while constructing a beam of residential buildings, such as apartments mainly H-beams, but the unit floor height is lower than the existing slab thickness. It is.

1 is a perspective view showing a slab support structure of the present invention

Figure 2A is an exemplary view showing that the slab of the present invention is made of reinforced concrete cast in the field

Fig. 2B is a partially cutaway sectional view showing the other side of Fig. 2A.

3 is an exemplary view showing that the slab of the present invention is made of half P.C.

4 is an exemplary view showing that the slab of the present invention is made of a deck plate

<Description of the symbols for the main parts of the drawings>

10: H-beam 11: Web

12: through hole 12a: upper side

12b: lower side 13: lower flange

14: upper flange 15: stud bolt

20, 20a: slab plate 21: reinforced concrete plate

22: lower P.C slab 23: deck plate

24: reinforcing bar 30: heat insulation layer

40: finishing layer 41: heating pipe

Hereinafter, the technical configuration of the present invention will be described.

The support structure of the slab for high-rise apartment of the present invention is the lower flange 13 is formed at the lower end of the web 11 and the upper flange 14 is formed at the upper end of the H-shaped steel beam 10 and the H-shaped steel beam ( 10) the slab plate body 20 is supported and installed, the lower surface of the slab plate body 20 is supported across the upper surface of the lower flange 13 of the H-beams and the thickness of the slab plate body 20 It is characterized in that it is formed between the lower flange 13 and the upper flange 14 without exceeding the upper flange 14 of the H-beam.

Therefore, according to the present invention, the slab plate body 20 is supported on the upper surface of the lower flange 13 of the H-shaped steel beam 10 so that the slab plate body 20 is supported by the upper flange 14 of the H-shaped steel beam 10. Unlike the conventional one installed in the upper portion, the unit layer height can be lowered to the thickness of the slab plate body 20 or more, and thus the space can be utilized more efficiently.

On the other hand, the present invention is applied when the dance of the H-beam is relatively low. However, the application filed in connection with the present invention is to install a pedestal on the web of the H-beams, and the slab plate body is supported on the upper surface of the pedestal, which is applied when the dance of the H-beams is relatively high.

Hereinafter, the present invention will be described in more detail with reference to exemplary embodiments shown in the accompanying drawings.

1 and 4, the lower flange 13 is formed at the lower end of the web 11 and the H-shaped steel beam 10 having the upper flange 14 formed at the upper end thereof. The slab plate body 20 is supported and installed on the H-shaped steel beam 10, and the lower surface of the slab plate body 20 is supported across the upper surface of the lower flange 13 of the H-shaped steel beam and the slab plate body. The thickness of 20 is to implement the basic technical concept of the present invention in that it is formed between the lower flange 13 and the upper flange 14 without exceeding the upper flange 14 of the H-beam.

The H-shaped steel beam 10, which is a basic component of the present invention, is not different from the conventional H beam having a lower flange 13 formed at the lower end of the web 11 and an upper flange 14 formed at the upper end thereof. . However, as shown in FIGS. 1, 2A and 2B, the H-shaped steel beam 10 of the present invention shows that through holes 12 are drilled to a predetermined size at regular intervals of the web 11.

As such, through the through holes 12 at regular intervals of the web 11, the reinforcing bars for connecting the left and right slab plates 20 and 20a of the web 11 integrally through the through holes 12. It will be possible to relocate (24), and also to solve the difficulties in the installation of equipment such as indoor cables.

Although the shape and position of the through hole 12 may be various, as shown in FIG. 2B, in the embodiment of the present invention, the first shape is a regular hexagon in which the upper side 12a and the lower side 12b are horizontally parallel to each other. It is drilled in a shape close to, the position is such that the upper side 12a and the lower side 12b are located close to the upper flange 14 and the lower flange 13, respectively, the lower side 12b is the slab plate body 20 ) And the upper side 12a is set to rise slightly above the top line of the slab plate body 20.

As shown in FIG. 2A, the through-hole 12 formed as described above allows the reinforcement bars 24 of the left and right slab plates 20 and 20a to pass therethrough so as to secure the integrity between the slab plates. The electric wires can be wired between the upper side of the through hole 12, that is, the upper side 12a and the upper end line of the slab plate body 20, so that the space can be efficiently utilized.

Meanwhile, as shown in FIGS. 1 to 4, the stud bolts 15 are formed on the upper surface of the lower flange 13 at regular intervals in the longitudinal direction. This serves to firmly attach the slab plate body 20 by the stud bolt 21 is formed on the upper surface of the lower flange (13).

The slab plate body 20 is supported across the upper surface of the lower flange 13 of the H-beams, unlike the conventional one that was installed on the upper flange 14 of the H-beams, the thickness of the upper flange of the H-beams It is the most important matter of the present invention that it is formed between the lower flange 13 and the upper flange 14 without exceeding (14).

Such slab plate body 20 can be constructed in various structures and methods.

That is, FIGS. 2A and 2B illustrate that the slab plate body 20 is made of the reinforced concrete plate body 21 formed by being poured in the field. Reinforced concrete plate body 21 is made by pouring in such a site follows the work to install and dismantle the formwork.

In addition, as shown in Figure 3, the slab plate body 20 is shown to illustrate that it is formed by pouring the field concrete on the half PC slab 22, after passing through the half PC slab 22, As shown in FIG. 4, the slab plate body 20 is formed by passing the deck plate 23, and then pouring the field concrete on the deck plate 23, for example.

As such, the slab plate body 20 is supported on the upper surface of the lower flange 13 of the H-shaped steel beam 10 and the deck plates 23 are formed of cast-in-place concrete on the upper part thereof. The role of the formwork is to omit the work of installing and dismantling the formwork can be easier and shorter construction work.

On the other hand, the present invention, as shown in Figures 1 to 4, the upper flange 14 of the H-shaped steel beam is embedded in the heat insulating layer 30 formed on the slab plate body 20, and the Illustrates that the finishing layer 40 in which the heating pipe 41 is embedded in the interior of the heat insulating layer 30 at a predetermined interval is additionally formed.

Here, when constructing the heat insulation layer 30, it is important to construct the upper flange 14 of the H-beams to be embedded in the heat insulation layer (30). This can solve the construction difficulties of the heating pipe 41 by embedding the upper flange 14 of the H-beams in the heat insulating layer (30).

In addition, the heat insulation layer 30 serves to prevent heat transfer from the heating pipe 41 to the slab plate body 20. At this time, the heat insulating layer 30 may be formed by selecting a variety of materials, but in the embodiment of the present invention indicates that the lightweight foam concrete is made by selecting.

Therefore, according to the present invention, a heat insulating layer 30 is formed on the upper surface of the slab plate 20 to bury the upper flange 14 of the H-shaped steel beam therein, and a heating pipe 41 is piped on the heat insulating layer 30. Since the finishing layer 40 is formed, it is suitable for residential buildings, such as apartments having an ondol heating structure.

As described above, the present invention allows the slab plate body 20 to be supported on the upper surface of the lower flange 13 of the H-shaped steel beam 10 so that the slab plate body 20 is supported by the upper flange 14 of the H-shaped steel beam 10. Unlike the conventional one installed in the upper part, the unit layer height can be lowered by the thickness of the slab plate body 20, and thus the space can be utilized more efficiently.

As described above, the support structure of the slab for high-rise apartments of the present invention is very useful because the slab plate body is supported over the upper surface of the lower flange of the H-beam, so that the unit height is low and the space utilization can be increased.

Claims (6)

A lower flange 13 is formed at the lower end of the web 11 and an upper flange 14 is formed at the upper end thereof, and the slab plate body 20 supported and installed on the H-shaped steel beam 10. The slab plate body 20 is supported across the upper surface of the lower flange 13 of the H-beams, and the thickness of the slab plate body 20 is defined by the upper flange 14 of the H-beams. The support structure of the slab for high-rise apartments, characterized in that formed so as not to fall between the lower flange 13 and the upper flange (14). The support structure of a slab for a high-rise apartment according to claim 1, wherein through holes (12) having a predetermined size are perforated at predetermined intervals of the H-beam steel web (11). The support structure of a slab for high-rise apartments according to claim 1, wherein the slab plate body (20) is made of reinforced concrete (21) formed by being poured in the field. The slab plate body (20) is formed by placing a half concrete slab (22) over the lower flange (13) and then pouring in-site concrete on the upper half of the slab (22). Support structure of slab for high rise apartment. According to claim 1, The slab plate body 20 is a high-rise apartment, characterized in that formed after the deck plate 23 over the lower flange 13, the site concrete is cast on the deck plate 23 Support structure of the slab. According to claim 1, wherein the upper flange 14 of the H-shaped steel beam is embedded in the heat insulating layer 30 formed on the top of the slab plate body 20, and the upper portion of the heat insulating layer 30 at regular intervals The heating structure of the slab for high-rise apartments, characterized in that the finishing layer 40 is additionally formed to be embedded in the heating pipe 41.