KR101023179B1 - Tee type ribbed slab, manufacturing method and construction method thereof - Google Patents

Abstract

The present invention provides a plurality of hollow parts 120 formed along the longitudinal direction of the core portion of the concrete body 100 so that a plurality of ribs 110 are formed; Filling material 130 of the foam material inserted into the hollow portion 120; A closed part 140 of concrete material formed at both ends of the main body 100 to close both ends of the hollow part 120; By presenting a tee-shaped rib slab and a manufacturing method therefor including the abdomen (150) extending downward on the bottom of the main body 100, even if the slab is long span or high load, it is effective due to the increase in flexural strength and flexural rigidity Not only is it possible to design, to be economical, but also has an advantageous structure in terms of fabrication, transportation and other workability.

Slab, rib, abdomen

Description

Tee type ribbed slab, manufacturing method and construction method {TEE TYPE RIBBED SLAB, MANUFACTURING METHOD AND CONSTRUCTION METHOD THEREOF}

TECHNICAL FIELD The present invention relates to the field of construction, and in particular, to the structure of a slab.

As shown in FIG. 1, a ribbed slab refers to a slab in which a plurality of ribs 11 are formed along a longitudinal direction of a core portion of the main body 10.

It is widely used as a building slab material because it can reduce the material by taking a pore structure, and can exhibit strength and rigidity similar to that of a slab.

However, this conventional ribbed slab has the following disadvantages.

First, when the length of the slab is longer (between rods) or when excessive loads are applied, the distance from the center of the steel wire to the center of the upper concrete stress block must be increased to increase the flexural strength, but there is a limit to this increase. On the other hand, if the cross section (depth) is excessively enlarged, there is a problem in terms of manufacturing and transportation and other workability.

Second, in order to reduce the cross section, it is necessary to apply the tension force by the tension member 12, which is difficult to secure the area to fix the tension member 11 due to the presence of the hollow portion between the ribs (11).

Therefore, when the tension force must be applied, in order to secure the fixing region of the tension member 11, the thickness of the lower portion of the hollow part is inevitably thickened, which leads to an inefficient cross section.

Third, in order to form the hollow portion between the ribs 11, it is necessary to go through the process of concrete casting of the bottom plate, formwork for forming the hollow portion, secondary concrete placing, removing the formwork for forming the hollow portion, which is cumbersome work, Since the concrete is poured over the secondary, there is a problem that it is difficult to obtain an integral structure and thus it is difficult to secure the strength of the member.

The present invention is derived to solve the above problems, even when the slab is a long span or a large load, due to the increase in flexural strength and flexural rigidity, efficient design is possible, economical, as well as manufacturing and transportation and other construction aspects It is also an object of the present invention to present a ribbed slab having an advantageous structure.

The present invention, in order to achieve the object described above, a plurality of hollow portion 120 formed along the longitudinal direction of the core portion of the main body 100 of the concrete material, so that a plurality of ribs 110 are formed; Filler 130 of foam material inserted into the hollow portion 120; A closed part 140 of concrete material formed at both ends of the main body 100 to close both ends of the hollow part 120; Presents a tee ribbed slab comprising ;; an abdomen (150) extending downward on the bottom of the main body 100.

The abdomen 150 is preferably formed in the lower region of the rib 110.

The abdomen 150 is preferably formed with a plurality.

The ratio of the distance L1 between the center of the abdomen 150 and the edge of the main body 100 and the distance L2 between the centers of the plurality of abdomen 150 is preferably 1: 2.

The abdomen 150 is preferably gradually narrower in width than the upper portion.

The abdomen 150 is installed on the inner side at intervals from the end of the main body 100, it is preferable that the duct installation portion 101 is formed in the lower end area of the main body 100.

The abdomen 150 is preferably formed in the inner region of the closure (140).

As the tension member 151 is fixed to the lower side of the abdomen 150 in the longitudinal direction, the tension force is preferably introduced.

A support 160 extending from both sides of the closure 140 to both sides; A plurality of rib extension portions 170 formed on the upper surface of the support portion 160 and extending from both sides of the ribs 110 to both sides thereof are further included.

The upper end of the cross section of the filler 130 is formed as a rectangular structure, and the lower end of the cross section of the filler 130 is formed to be bent or curved, so that lower regions of the plurality of ribs 110 are formed thicker than upper regions. Do.

The lower end of the cross section of the filler 130 is preferably circular or elliptical.

The present invention is a method of manufacturing the tee ribbed slab, the form 200 having the abdominal forming part 210 for the formation of the abdomen 150 and the main body forming part 220 for the formation of the main body 100 Preparing); Disposing the filler 130 on an upper surface of the formwork 200 so that the plurality of ribs 110 and the hollow portion 120 are formed; Presenting a method of manufacturing a T-shaped ribbed slab, characterized in that it comprises a; pouring concrete into the formwork (200).

The present invention provides a method for manufacturing the tee ribbed slab, the abdominal forming part 210 for the formation of the abdomen 150, the main body forming part 220 and the rib extension for forming the main body 100 ( Providing a formwork 200 having rib extension forming parts for forming 170; Disposing the filler 130 on an upper surface of the formwork 200 so that the plurality of ribs 110 and the hollow portion 120 are formed; Presenting a method of manufacturing a T-shaped ribbed slab, characterized in that it comprises a; pouring concrete into the formwork (200).

The present invention provides a ribbed slab having a structure that is efficient in design and economical as well as advantageous in terms of fabrication, transportation, and workability, even when the slab is long span or a large load.

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

As shown in Figure 2, the tee ribbed slab according to the present invention basically, a plurality of hollows formed along the longitudinal direction in the core portion of the main body 100 made of concrete so that a plurality of ribs 110 are formed 120; Filling material 130 of the foam material inserted into the hollow portion 120; A closed part 140 of concrete material formed at both ends of the main body 100 to close both ends of the hollow part 120; It is configured to include; an abdomen 150 extending downward on the bottom of the main body 100.

That is, the hollow portion 120 is different from the conventional ribbed slab in that the filler 130 of the foam material is inserted, the abdomen 150 is formed on the lower side of the main body 100.

This has the following effects.

First, by introducing the abdominal (web) structure of the T-shaped slab into the ribbed slab, an efficient cross section can be achieved.

With this structure, the abdomen 150 can sufficiently increase the bending stiffness of the entire ribbed slab, and even if the length of the slab is long, the cross section of the ribbed slab does not need to be excessively enlarged, which is economical. In addition, there is an advantage in terms of manufacturing and transportation and other workability.

Second, when the tension force is required, rather than fixing the tension member in the lower region of the ribbed slab as in the prior art, since the tension member 151 can be fixed along the longitudinal direction in the lower side of the abdomen 150, the ribbed slab There is an advantage that it is not necessary to increase the thickness of inefficiently.

Third, in order to form the ribs 110, since the filler 130 of a foam material such as styrofoam is inserted without using the structure of the formwork as in the prior art, the work of removing the formwork for the formation of the hollow portion 120 is It is not necessary to facilitate the manufacture as a whole (Fig. 9).

The abdomen 150 may be obtained even if the bottom surface of the slab body 100 is formed, but when the abdomen 150 is formed in the lower region between the plurality of hollow portion 120, the load transmitted in the vertical direction Bars are directly transmitted to the abdomen 150 through the concrete in the region between the plurality of hollow portion 120, there is an advantage that a more stable structure can be obtained.

Although one abdomen 150 may be formed on the bottom surface of the slab main body 100, when two or more are formed as shown in FIG. 2 or less, the abdomen 150 is disposed between the plurality of hollow parts 120. It is more preferable at the point which can do it.

As shown in FIG. 3, the ratio of the distance L1 between the center of the abdomen 150 and the edge of the main body 100 and the distance L2 between the centers of the plurality of abdomen 150 is 1: 2. It is most efficient to make it possible.

Abdomen 150 may take the structure of a rectangular cross-section with the same width of the upper and lower, but, as shown in Figure 4, when taking the structure that the width of the lower gradually compared to the upper, from the formwork at the time of manufacture The advantage of easy demoulding is added.

As shown in FIG. 6, when the abdomen 150 is installed at an inner side with a gap from an end of the main body 100, the slab main body 101 is formed in the lower end region of the main body 100, the slab main body. In a state in which the 100 is installed on the beam 400, it may take a structure in which the ventilation duct 4 is installed in the upper duct installation unit 130.

This is advantageous because it is not necessary to dedicate a separate space for the installation of the ventilation duct (4), the height of the floor.

Specifically, the abdomen 150 is more preferably formed in the inner region of the closure 140 in terms of structural stability.

Both ends of the main body 100, the support portion 160 extending from both sides of the lower portion of the closing portion 140; It is preferable to take a structure further including; a plurality of rib extension portions 170 formed on the upper surface of the support portion 160 and extending from both sides of the plurality of ribs 110 (FIGS. 1, 5, 6).

In this case, there is a spatial margin in the inner region of the support 160 and the plurality of rib extensions 170, which is shown in Figure 6, the beam 400 and the slab body 100 and the adjacent slab body 100a This is because it is possible to achieve an integrated structure by installing the root bar 2 and placing the topping concrete 1 in the coupling structure of the structure.

As illustrated in FIG. 7 and 8, the upper end face of the filler 130 is formed as a rectangular structure, and the lower end face of the filler 130 is formed to be bent or curved so that the lower regions of the plurality of ribs 110 are upward. In the case where the structure is thicker than the area, the space for arranging the reinforcing bars or tension members is expanded, and the flowability of concrete is improved, thereby adding the advantage of being able to manufacture by one-time pouring.

Furthermore, when the lower portion of the cross section of the filler 130 has a circular or elliptical structure, the above-described effects can be obtained even more.

In other words, conventionally, since only two castings of concrete can be manufactured, there is a problem that it is difficult to secure the strength because an integrated structure cannot be obtained. However, when the above structure is taken, it is possible to manufacture by placing one concrete. There is an effect that an integrated structure can be obtained.

The tee ribbed slab described above can be produced by the following process (Fig. 9).

Formwork provided with an abdominal forming part 210 for forming the abdomen 150, a main body forming part 220 for forming the main body 100 and a rib extension forming part for forming the rib extension part 170, etc. The filler 200 is disposed on the upper surface of the formwork 200 so that the plurality of ribs 110 and the hollow portion 120 are formed.

When the concrete is poured, the filler 130 floats upward, and the filler 130 is supported at a predetermined position of the formwork 200 by the support member 201 so that the filler 130 maintains a predetermined position.

Subsequently, when the concrete is poured into the formwork 200, when the shape of the filler 130 is formed as shown in FIGS. 7 and 8, the slab may be manufactured by one casting.

Referring to FIGS. 6 and 10, a method of constructing a tee ribbed slab according to one embodiment of the present invention is as follows.

The worker installs the PC girder 40 (A), and installs the beam 400 in the PC girder 40 (B), after which the body 100 of the tee ribbed slab according to the present invention is installed In the state (C), the overcast concrete 20 is poured and cured (D).

Since the above has been described only with respect to some of the preferred embodiments that can be implemented by the present invention, the scope of the present invention, as is well known, should not be construed as limited to the above embodiments, the present invention described above It will be said that both the technical idea and the technical idea which together with the base are included in the scope of the present invention.

1 is a perspective view of a conventional ribbed slab.

Figure 2 below shows an embodiment of the present invention,

2 is a perspective view of a first embodiment;

3 is a cross-sectional view of the first embodiment.

4 is a sectional view of a second embodiment;

5 is a sectional view of a third embodiment.

6 is a sectional view of a fourth embodiment.

7 is a sectional view of a fifth embodiment.

8 is a sectional view of a sixth embodiment;

9 is a sectional view of one embodiment of a formwork;

DESCRIPTION OF REFERENCE NUMERALS

100: main body 101: duct mounting

110: rib 120: hollow portion

130: filler 140: closed portion

150: abdomen 151: tension

160 support portion 170 rib extension portion

200: form 210: abdomen forming part

220: body forming portion

Claims (14)

A plurality of hollow parts 120 formed along the longitudinal direction of the core portion of the concrete body 100 so that a plurality of ribs 110 are formed; Filler 130 of foam material inserted into the hollow portion 120; A closed part 140 of concrete material formed at both ends of the main body 100 to close both ends of the hollow part 120; An abdomen 150 extending downward on the bottom of the main body 100; Tee-type ribbed slab containing. The method of claim 1, The abdomen 150 is a tee ribbed slab, characterized in that formed in the lower region of the rib (110). The method of claim 2, The abdomen 150 is a tee ribbed slab, characterized in that a plurality is formed. The method of claim 3, Tee-type, characterized in that the ratio of the distance (L2) between the center of the abdomen 150 and the edge of the body 100 and the distance (L2) of the center of the plurality of abdomen 150 is 1: 2 Ribbed slab. The method of claim 1, The abdomen 150 has a hollow tee slab characterized in that the width of the lower gradually compared to the upper. The method of claim 1, The abdomen 150 is installed in the inner space at a distance from the end of the main body 100, the hollow tee slab, characterized in that the duct installation portion 101 is formed in the lower end area of the main body (100). The method of claim 6, The abdomen 150 is a tee ribbed slab, characterized in that formed in the inner region of the closure (140). The method of claim 2, Tee-type ribbed slab, characterized in that the tension force is introduced by fixing the tension member 151 in the longitudinal direction on the lower side of the abdomen (150). The method of claim 1, A support 160 extending from both sides of the closure 140 to both sides; A plurality of rib extension parts 170 formed on an upper surface of the support part 160 and extending from both sides of the plurality of ribs 110 to both sides; Tee-type ribbed slab, characterized in that it further comprises. The method according to any one of claims 1 to 9, The upper end surface of the filler 130 is formed as a rectangular structure, The lower end of the cross section of the filler 130 is formed to be bent or curved, Tee-type ribbed slab, characterized in that the lower region of the plurality of ribs 110 is formed thicker than the upper region. The method of claim 10, Tee-shaped ribbed slab, characterized in that the lower portion of the cross-section of the filler 130 is circular or oval. As a method for producing a tee ribbed slab of claim 10, Providing a mold (200) having an abdominal forming part (210) for forming the abdomen (150) and a main body forming part (220) for forming the main body (100); Disposing the filler 130 on an upper surface of the formwork 200 so that the plurality of ribs 110 and the hollow portion 120 are formed; Pouring concrete into the formwork; Method for producing a tee ribbed slab, characterized in that it comprises a. The method for producing a tee ribbed slab of claim 9, The abdominal forming part 210 for forming the abdomen 150, the main body forming part 220 for forming the main body 100 and the rib extension forming part for forming the rib extension part 170 are provided. Preparing a formwork 200; Disposing the filler 130 on an upper surface of the formwork 200 so that the plurality of ribs 110 and the hollow portion 120 are formed; Pouring concrete into the formwork; Method for producing a tee ribbed slab, characterized in that it comprises a. Installing a beam 400 on the column structure; Arranging the tee-shaped ribs of claim 9 on the beams (400) using the support (160); Arranging and installing tensile continuous reinforcing bars 500 on the top of the tee ribbed slab; And Pouring concrete into the aligned continuous rebars 500; Construction method of the tee ribbed slab comprising a.

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