KR101079267B1 - T-type pc slab and construction method thereof - Google Patents

Abstract

The present invention is a panel unit 100; A adapter end 150 formed at both ends of the panel unit 100; An abdomen 200 extending downward from the bottom surface of the panel unit 100 and connected to the end portion 150 of the panel 100; Shear key 170 formed on both sides of the panel portion 100; The shear key 170 is a tee-type PC slab characterized in that it comprises a connecting reinforcing groove 173 formed on the side end of the panel portion 100 By presenting, it is possible to suppress the occurrence of side cracks in the slab joint.

Slab, crack, shear

Description

T-type PC slab and construction method {T-TYPE PC SLAB AND CONSTRUCTION METHOD THEREOF}

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

1 to 3 show the structure of a conventional slab (PCI).

As shown, the abdomen 20 is formed on the lower side of the panel portion 10, and the end portion 15 is formed on both ends to be placed on the beam for the shear reinforcement.

This conventional slab had the following problems.

Since it is difficult to adjust the height of the panel portion 10a of the slab installed adjacent to the panel portion 10 of the slab, topping concrete is generally poured in a state where they are installed at different heights. In this case, side cracks are caused by stress concentration. This is likely to occur (Fig. 3).

The present invention has been made to solve the above problems, and an object thereof is to provide a tee-type PC slab capable of suppressing the occurrence of side cracks in the slab joint.

The present invention, in order to achieve the object as described above, the panel unit 100; A adapter end 150 formed at both ends of the panel unit 100; An abdomen 200 extending downward from the bottom surface of the panel unit 100 and connected to the adapter end 150; And a shear key 170 formed at both sides of the panel unit 100, wherein the shear key 170 includes a connection reinforcing bar insertion groove 173 formed at a side end of the panel unit 100. Present a PC slab.

The adapter end 150 is preferably formed thicker than the thickness of the panel portion 100 to support the excessive shear force of the tee-type PC slab end.

The shear key 170 includes an extension portion 171 extending downward from the inner bottom surface of the side end of the panel portion 100; And a lower protrusion 172 extending outward from a lower end of the extension part 171, wherein the connection reinforcing bar insertion groove 173 includes side ends, an extension part 171, and a lower protrusion part of the panel part 100. It is preferably formed by the inner region of 172.

The lower protrusion 172 is preferably more protruded to the outside than the side end of the panel portion 100.

The abdomen 200 is preferably formed with a plurality.

The abdomen 200 is installed on the inside at intervals from the end of the panel portion 100, it is preferable that the duct 350 is installed in the lower region of the end of the panel portion 100.

The present invention comprises the steps of installing a beam (300) for supporting the slab; Continuously installing the tee-type PC slab and the tee-type PC slab to be installed adjacent thereto on the beam (300) using the adapter end (150); The connecting reinforcing bar 400 is installed in a diagonal direction in the connecting reinforcing rod insertion groove 173a formed by the connecting reinforcing groove 173 of the tee-type PC slab and the connecting reinforcing rod insertion groove 173a of the adjacent tee-type PC slab, but the connection Installing both ends of the reinforcing bars 400 in contact with inner surfaces of the connection reinforcing grooves 173 of the tee-type PC slab and the connection reinforcing grooves 173a of the adjacent tee-type PC slabs, respectively; Hitting the connecting reinforcement 400 to match the heights of the tee-type PC slabs on both sides that are adjacently installed; Presenting a slab construction method comprising a; to the concrete to be poured, including the connecting reinforcing rod inserting portion 410;

The connecting reinforcement 400 is preferably a structure of the I-shaped cross section.

The connecting reinforcement 400 is provided with a plurality of spaced apart from each other, the plurality of connecting reinforcement (400a, 400b) is preferably installed in an oblique direction in the opposite direction to each other.

The present invention is the tee-type PC slab; An adjacent tee PC slab installed adjacent to the tee PC slab; A connecting reinforcing bar insertion part 410 formed by the connecting reinforcing bar insertion groove 173 of the tee-type PC slab and the connecting reinforcing bar insertion groove 173a of the adjacent tee-type PC slab; And connecting rods 400 installed in oblique directions so that both ends thereof contact inner surfaces of the connection reinforcement grooves 173 of the tee-type PC slab and the connection reinforcement insertion grooves 173a of the adjacent tee-type PC slabs, respectively. Present the building structure together.

The connecting reinforcement 400 is preferably a structure of the I-shaped cross section.

The connecting reinforcement 400 is provided with a plurality of spaced apart from each other, the plurality of connecting reinforcement (400a, 400b) is preferably installed in an oblique direction in the opposite direction to each other.

The present invention proposes a tee type PC slab that can suppress occurrence of side cracks in a slab joint.

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

As shown in Figure 4 below, the tee-type PC slab according to the present invention basically comprises a panel portion 100; A adapter end 150 formed at both ends of the panel unit 100; An abdomen 200 extending downward from the bottom surface of the panel unit 100 and connected to the end portion 150 of the panel 100; Shear keys 170 formed on both sides of the panel unit 100; The shear key 170 is configured to include a connecting reinforcing bar insertion groove 173 formed on the side end of the panel unit 100.

That is, the shear key 170 for the connection with the slab is installed adjacent to both sides of the panel portion 100 is installed, the shear key 170 is a connecting reinforcement groove 173 is inserted into the connecting reinforcement 400 to be described later It is characterized by taking the structure of).

As described above, in the slab according to the present invention, shear keys 170 are formed at both sides of the panel portion 100, so that the slabs can be combined with the panel portion 100a of the adjacent slab, so that the heights of the panel portions of both slabs which are adjacently installed are fixed. It can be adjusted so as to prevent side cracks caused by stress concentration as in the prior art.

Slabs having this structure are constructed by the following process.

A beam 300 supporting the slab is installed, and the tee-type PC slab and the tee-type PC slab to be installed adjacent thereto are continuously installed on the beam 300 by using the adapter end 150 (FIG. 5).

The connecting reinforcing bars 400 are installed in the connecting reinforcing bar insertion slots 410 formed by the connecting bar insertion grooves 173 of the tee-type PC slab and the connecting bar insertion grooves 173a of the adjacent tee-type PC slab, but the connecting bars ( Both ends of 400 are respectively in contact with the inner surfaces of the connecting bar insertion groove 173 of the tee-type PC slab and the connecting bar insertion groove 173a of the adjacent tee-type PC slab (FIG. 7).

In this way, when the connecting reinforcing bar 400 is installed in an oblique direction, by hitting the connecting bar 400 with a hammer or the like, it is possible to match the height with the tee-type PC slabs on both sides to be adjacently installed.

After adjusting the height, the topping concrete 1 is poured so that the concrete is poured, including the connecting reinforcing rod inserting portion 410.

Here, both ends of the connecting reinforcing bar 400 is in contact with the inner surface of the connecting reinforcing groove 173 and the connecting reinforcing bar insertion groove 173a of the adjacent tee-type PC slab to achieve a stable fixing structure, the connecting reinforcement 400 is I It is preferable to take the structure of a mold cross section (FIG. 7).

Furthermore, when the plurality of connecting reinforcing bars 400 are installed at intervals with each other, and the plurality of connecting reinforcing bars 400a and 400b are installed in an oblique direction facing each other, the plurality of connecting reinforcing bars 400a and 400b. When one hits the slab of one rises, the other hitting the other side of the slab rises in a way that can be adjusted, it is more preferable in terms of construction convenience (Fig. 8).

The shear key 170 (connecting reinforcement groove 173) of this structure may be formed directly on both sides of the panel portion 100, but because of this to prevent the thickness of the panel portion 100 is thick as follows: It is desirable to take the structure.

That is, the slab is an extension portion 171 extending downward from the inner bottom surface of the side end of the panel portion 100; And a lower protrusion 172 extending outward from a lower end of the extension part 171, wherein the connection reinforcing bar insertion groove 173 includes the side ends of the panel part 100, the extension part 171, and the lower protrusion 172. That is the structure formed by the inner region (Fig. 6).

When the lower side protrusion 172 has a structure that protrudes outward more than the side end of the panel portion 100, the lower side protrusion 172 is in contact with each other when the adjacent slab is engaged, and between the side ends of the panel portion 100 Since it becomes a structure that opens, it is added to the advantage that it is possible to secure a space for the installation of the connecting reinforcement 400 and the height correction work naturally.

The adapter end 150 is preferably formed thicker than the thickness of the panel portion 100 to support the excessive shear force of the tee PC slab end.

The abdomen 200 of the slab may be formed only one, it is more preferable in terms of structural stability and convenience of transportation, storage is formed.

When the abdomen 200 is installed on the inner side at a distance from the end of the panel portion 100, since the duct 350 is installed in the lower region of the end portion of the panel portion 100, the height of the duct 360 may be due to the installation of the duct 360. The effect of preventing the situation from becoming high is added (FIG. 9).

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 slab.

2 is a cross-sectional view of a conventional slab.

Figure 3 is a partial perspective view of the side crack occurs in the conventional slab installation structure.

Figure 4 below shows an embodiment of the present invention,

4 is a perspective view of a first embodiment;

Fig. 5 is a sectional view of the use state of the first embodiment.

6 is a sectional view of a second embodiment;

7 is an essential part cross sectional view of the second embodiment;

8 is a perspective view of an essential part of the second embodiment;

Fig. 9 is a sectional view of a using state of the third embodiment.

DESCRIPTION OF REFERENCE NUMERALS

100 panel portion 150 end portion

170: shear key 171: extension

172: lower side protrusion 173: connecting rod insertion groove

200: Abdomen 300: Bo

350: duct 400: connecting rebar

410: connecting rod insert

Claims (12)

A panel unit 100; A adapter end 150 formed at both ends of the panel unit 100; An abdomen 200 extending downward from the bottom surface of the panel unit 100 and connected to the adapter end 150; Includes; shear key 170 formed on both sides of the panel unit 100, The shear key 170 is It includes a connecting reinforcing bar insertion groove 173 formed on the side end of the panel unit 100, The shear key 170 is An extension part 171 extending downward from an inner bottom surface of the side end of the panel part 100; And a lower protrusion 172 extending outward from a lower end of the extension part 171. The reinforcing bar insertion groove (173) is a tee-type PC slab, characterized in that formed by the inner region of the side end, the extension portion 171 and the lower protrusion 172 of the panel portion (100). The method of claim 1, The adapter end (150) is tee-type PC slab, characterized in that formed thicker than the thickness of the panel portion 100 to support the excessive shear force of the tee-type PC slab end. delete The method of claim 1, The lower protrusion 172 is a tee-type PC slab, characterized in that more protruded outward than the side end of the panel portion (100). The method according to any one of claims 1, 2 and 4, The abdomen 200 is a tee-type PC slab, characterized in that a plurality is formed. The method according to any one of claims 1, 2 and 4, The abdomen (200) is a tee-type PC slab, characterized in that the duct 350 is installed in the lower area of the end portion of the panel portion 100 by being installed on the inner side at intervals from the end of the panel portion (100). Installing a beam 300 supporting the slab; 5. The method of claim 1, wherein the tee-type PC slab of claim 1 and the tee-type PC slab to be installed adjacent thereto are continuously installed on the beam 300 by using the adapter end 150. ; The connecting reinforcing bar 400 is installed in a diagonal direction in the connecting reinforcing rod insertion groove 173a formed by the connecting reinforcing groove 173 of the tee-type PC slab and the connecting reinforcing rod insertion groove 173a of the adjacent tee-type PC slab, but the connection Installing both ends of the reinforcing bars 400 in contact with inner surfaces of the connection reinforcing grooves 173 of the tee-type PC slab and the connection reinforcing grooves 173a of the adjacent tee-type PC slabs, respectively; Hitting the connecting reinforcement 400 to match the heights of the tee-type PC slabs on both sides that are adjacently installed; Pouring the topping concrete so that the concrete is poured, including the connecting reinforcing rod inserting portion 410; Slab construction method that includes. The method of claim 7, wherein The connecting reinforcement 400 is a slab construction method characterized in that the structure of the I-shaped cross section. The method of claim 8, The connecting reinforcement 400 is provided with a plurality of spaced apart from each other, the plurality of connecting reinforcement (400a, 400b) is a slab construction method, characterized in that installed in an oblique direction to the opposite direction. Tee PC slab according to any one of claims 1, 2 and 4; An adjacent tee PC slab installed adjacent to the tee PC slab; A connecting reinforcing bar insertion part 410 formed by the connecting reinforcing bar insertion groove 173 of the tee-type PC slab and the connecting reinforcing bar insertion groove 173a of the adjacent tee-type PC slab; A connecting bar 400 installed in an oblique direction such that both ends contact inner surfaces of the connecting bar insertion groove 173 of the tee-type PC slab and the connecting bar insertion groove 173a of the adjacent tee-type PC slab; Building structure comprising a. The method of claim 10, The connecting reinforcement 400 is a building structure, characterized in that the structure of the I-shaped cross section. The method of claim 11, The connecting reinforcement 400 is provided with a plurality of spaced apart from each other, the plurality of connecting reinforcement (400a, 400b) is a building structure, characterized in that installed in an oblique direction to the opposite direction.

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