KR101103680B1 - Architectural Slab with Arch Support Ribs - Google Patents

Abstract

The present invention relates to a building PC slab having an arcuate support rib.
Accordingly, the technical gist of the present invention, in a PC slab for constructing a building such as public facilities or public housing including an underground parking lot, by forming a plurality of support ribs in a lower curved upper structure of the upper panel of the slab Significantly improves the resistance to the direct compression force of the end of the PC slab in comparison with the past, and in particular, the support rib of the arcuate (arc) structure can save the concrete for curing (rectangular) compared to the conventional, as well as the reinforced arch The support rib of the structure reduces the amount of upper reinforcing bar at the end of the connection, which improves the assembly ability by reducing the weight of the PC slab, thereby securing productivity by reducing the cost, and at the same time, the arched ceiling structure of the underground parking lot The internal aesthetics are improved.

Description

PC slab with arch type rib for underground parking lot}

The present invention is a PC slab for constructing a building, such as public facilities or public housing including an underground parking lot, the plurality of support ribs in the lower portion of the top panel of the PC slab formed in an arc of the curved upward curved end of the slab Significantly improves the resistance to the direct compression of the side down, and the support ribs of the arcuate (arc) structure, as well as the reduction of the conventional (rectangular) curing concrete as well as the support ribs of the reinforced arched structure This reduces the amount of upper reinforcing bars on the connection end side, thereby improving assembly performance by reducing the weight of the PC slab, thereby securing productivity by reducing costs, and improving the internal aesthetics of the structure due to the arched ceiling structure of the underground parking lot. Pipes for building PVC slabs having arched support ribs, characterized in that Will.

In general, when constructing public facilities including underground parking lots or buildings such as public housings, a lot of loads are required, and thus, a precast reinforced concrete layer construction method (PRC) complex method using half PC slab is implemented. .

In other words, the PRC composite method is a method of converting reinforced concrete ramen (PC) into a precast concrete (PC) structure. It is then formed on the site of the joint between the member and the top of the half slab, the cast concrete in the field is formed to integrate the structure.

On the other hand, for example, in the case of construction of underground parking lot (construction), the size of the vehicle has recently been increased and a sufficient parking space is required. Therefore, a long span (long span) is required. Since 8.1 m, 8.0 X 8.0 m or 8.1 X 10.2 m is required, the PRC composite method is used in two directions because the slab is designed to be short and construction is not suitable in one direction.

However, when constructing in two directions, PC simple beams and PC girders, which are required structural elements, are increased, resulting in an increase in overall PC volume, making it less competitive than other construction methods. In addition, the increase in the amount of rebars and the increase in construction costs, and in the case of long span (more than 6m) due to structural dynamics and safety issues, additional support should be installed to avoid additional construction costs due to additional cost increase and floor height.

In recent years, the double tee slab method has been implemented. In other words, it is also called DTS method. Double tee slab is formed to install a deep reinforcing rib on the bottom plate, insert a strand in the lower part of the reinforcing rib, and apply a tensile force to form an integral member. Due to this, the central part of the body plate of the double tee slab is raised slightly and is mainly applied to the ground layer structure with a long span of about 10m or more.

However, the above-mentioned double tee slab is usually bent in the upper part by planting a plurality of buried connection roots in the support ribs for reinforcement to form a ceiling of the basement or ground layer by the overlay concrete, but such a landfill connecting rod is installed in the factory When the slab is manufactured, the worker has to manually insert it at set intervals manually, causing labor costs to increase and lower workability due to cumbersome work, which leads to air delay.

In addition, the conventional double tee slab has a support rib formed in the lower portion of the panel is formed in the form of a simple block of a rectangular parallelepiped, the situation is still required in the art for improved structural rigidity, productivity, assembly and aesthetics to be.

The present invention is to solve the above-described problems, the technical gist of the slab for constructing a building, such as public facilities or public housing including an underground parking lot, a plurality of support ribs in the lower part of the top panel of the PC slab Is formed into an upward curved arcuate structure to significantly improve the resistance to the direct compression force of the end side of the PC slab as compared to the past, in particular, the support rib of the arcuate (arc) structure of the conventional In addition to the reduction, the reinforced rib-shaped support ribs reduce the amount of upper reinforcing bars on the connection end side, thereby improving assembly performance due to the reduction of the weight of the PC slab, thereby securing productivity by reducing costs and at the same time underground. The arched ceiling structure of the parking lot improves the internal aesthetics of the structure It is an object of the present invention to provide a PC slab for building having an arched support rib.

In order to achieve the above object, the present invention provides a plurality of support ribs 20 having a connection root 21 embedded or branched in or out at the bottom of the long span panel 10 at equal intervals in the width direction. In the longitudinal longitudinal ends of the 10) the PC slab for the underground parking lot construction is formed with a finishing surface 30 is orthogonal to the panel 10 and bent downward and abut the ends of the support rib 20, the support rib 20 is formed at the lower end of the arch surface 100 is bent upward from the longitudinal both ends to the upper end is configured to improve the resistance of the direct compression force of the connecting end (J).

At this time, the finishing surface 30 of the PC slab is the inclined surface 200 so that the corner portions (C) orthogonal to each of the longitudinal ends of the panel 10 are chamfered to improve crack prevention and bonding with the cast-in-place concrete 40. It is preferable that this be formed.

In addition, the finishing surface 30 of the PC slab is a circular, square or polygonal joining groove 400 etched into the inclined surface 200 or the vertical surface 300 for the integrated synthesis with the cast-in-place concrete 40 is further It is preferred to be provided.

In addition, the PC slab is simply mounted on the upper surface 51 of the PC girder 50 having a rectangular cross section when it is seated on the PC girder 50, or the elbow type bump of the PC girder 50 having an uneven cross section. An edge portion (C-1) formed at an upper portion of the girder 500 having a rectangular cross section after forming an elbow type groove 500 at the bottom of the finishing surface 30 of the PC slab or being seated at 52. It is preferable to combine with any of those to be seated over).

As described above, the present invention forms a plurality of support ribs upwardly curved at the lower portion of the upper panel of the PC slab to significantly improve the resistance to compressive force in the direction of the end side of the PC slab, and in particular, the arch (circle) The support ribs of the arc-shaped structure can reduce the amount of concrete for curing (rectangular) curing as well as reduce the upper reinforcement amount at the connecting end side by the reinforced arched support ribs, thereby reducing the weight of the PC slab itself. Due to the improved assembly performance due to cost reduction is secured, and at the same time there is an effect of improving the interior aesthetics of the structure due to the arched ceiling structure of various buildings, including underground parking.

1 is a side view of a building PC slab having an arched support rib according to the present invention,
FIG. 2 is an exemplary view illustrating a state in which a PC slab of FIG. 1 is coupled to a PC girder;
3 is another exemplary embodiment showing a state in which the PC slab of FIG. 1 is coupled to the PC girder;
4 is another exemplary embodiment illustrating a state in which the PC slab of FIG. 1 is coupled to the PC girder.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described in detail below with reference to the accompanying drawings.

1 to 4, the construction of the underground parking lot among the various buildings as an example, by improving the resistance to direct compression of the PC slab to the arch support ribs to improve the structural rigidity significantly It is done.

Accordingly, the PC slab of the present invention has a width of a plurality of support ribs 20 having a connecting root 21 which is buried or branched in and out in the lower part of the long span panel 10 in an underground building including an underground parking lot. It is arranged at equal intervals in the direction, and both ends of the longitudinal direction of the panel 10 are orthogonal to the panel 10 and bent downward to form a finishing surface 30 to be in contact with the ends of the support rib 20.

At this time, the support rib 20 is formed at the lower end of the arch surface 100 curved upward from both ends in the longitudinal direction is configured to improve the resistance of the direct compression force of the connecting end (J).

본 발명 실시예

Inventive Example

1. When installing the member-direct load in the state in which the present invention is applied to the PC beam by its own weight

2. When finishing frame after pouring concrete


2-1. Overweight Concrete Weight + Work Load + Impact Load


2-2. SID + Bow Load


2-3. Final load (1 + 2 + 3)-(work load + shock load)

That is, the arch surface 100 of the support rib is formed in an arc-like pier structure, the substantial load stress of the center portion of the panel is lowered, the longitudinal end-side compression resistance is increased.

In this case, unlike the support rib of the conventional multi-slab, the arch surface is reduced in the volume of the concrete to be cured, while reducing the cost while forming a feature that facilitates assembly by weight reduction.

In other words, when the weight is reduced, the worker can secure easy workability during transportation or assembly through heavy equipment such as a crane.

At this time, the finishing surface 30 of the PC slab is the inclined surface 200 so that the corner portions (C) orthogonal to each of the longitudinal ends of the panel 10 are chamfered to improve crack prevention and bonding with the cast-in-place concrete 40. It is preferable that this be formed.

That is, the inclined surface 200 formed at the corner portion improves the problem of cracks or cracks generated at the connection parts of the conventional PC slabs. The conventional PC slab seated on the general PC girder is integrated while being cured by the cast-in-place concrete. At this time, the upper surface of the vertical slab of the PC slab seated on the upper part of the PC girder due to the characteristics of the underground parking lot is constantly stressed due to the high load of the vehicle, thereby causing cracks or cracks due to fatigue. The sloped surface of the PC slab of the present invention has a feature of improving the bonding between the connecting end and the cast-in-place concrete due to the wider joint surface as well as the joint surface is wider distribution when the slope is combined with the cast-in-place concrete.

In addition, the finishing surface 30 of the PC slab is a circular, square or polygonal joining groove 400 etched into the inclined surface 200 or the vertical surface 300 for the integrated synthesis with the cast-in-place concrete 40 is further It is preferred to be provided.

That is, the cast-in-place concrete flows into the joint groove formed on the inclined surface or the vertical surface of the PC slab of the present application and is cured, thereby forming the improved integrity.

In addition, the PC slab is simply mounted on the upper surface 51 of the PC girder 50 having a rectangular cross section when it is seated on the PC girder 50, or the elbow type bump of the PC girder 50 having an uneven cross section. An edge portion (C-1) formed at an upper portion of the girder 500 having a rectangular cross section after forming an elbow type groove 500 at the bottom of the finishing surface 30 of the PC slab or being seated at 52. It is preferable to combine with any of those to be seated over).

That is, the PC slab of the present application is preferably formed to have easy assembly with the PC girders designed in various ways.

Therefore, the PC slab for the building having the arched support ribs of the present invention has a 30% or more improvement in resistance to vertical compression compared to a conventional double tee slab or multi-slab, so that the weight-to-weight structure is firm, and the improved resistance is Compared to the existing long span PC slab, the use of the amount of reinforcing bar at the upper end of the connection is reduced, thereby reducing other structural members and construction costs, as well as improving work productivity and internal aesthetics.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present invention as defined by the appended claims and their equivalents. Of course, such modifications are within the scope of the claims.

10 ... Panel 20 ... Support Rib
21 ... Connection root 30 ... Finish
40 ... cast-in-place concrete 50 ... PC girder
100 ... arch surface 200 ... slope
300 ... vertical plane 400 ... splice groove
500 ... Home

Claims (4)

A plurality of support ribs 20 having connection roots 21 which are embedded or branched in and out of the lower span panel 10 are arranged at equal intervals in the width direction, and the panel (at both ends in the longitudinal direction of the panel 10). In the construction slab PC slab is orthogonal to the 10) and the finishing surface 30 is formed to be in contact with the ends of the support rib 20 while being bent downwardly,
The support rib 20 has an arcuate support rib, characterized in that the resistance of the compressive force in the direct downward direction of the connection end (J) is formed by forming an arch surface 100 curved upward from both ends in the longitudinal direction at the bottom thereof. PC slab for construction. The method of claim 1, wherein the finishing surface 30 of the PC slab is
Edges C which are orthogonal to each other at both ends of the longitudinal direction of the panel 10 are chamfered so that the inclined surface 200 is formed to improve crack prevention and adhesion with the cast-in-place concrete 40. PC slab for construction. 3. The finishing surface 30 of claim 2 wherein the finishing slab
Building having an arched support rib, characterized in that the joint groove 400 of the circular, rectangular or polygonally etched in the inclined surface 200 or vertical surface 300 is further provided for the integrated synthesis with the cast-in-place concrete 40 Dragon PC slab. The method of claim 3, wherein the PC slab is
When it is seated on the PC girder 50, the cross section is simply caught on the upper surface 51 of the PC girder 50 having a rectangular type, or it is seated on the elbow type bump 52 of the PC girder 50 having a cross-sectional shape. After forming the elbow type grooving groove 500 at the bottom of the finishing surface 30 of the PC slab so that the top surface and side surfaces of the PC girder having a rectangular cross section is seated over the corner portion (C-1) orthogonal to each other. Building slab for the building having an arched support rib, characterized in that coupled to any one of.

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