KR101192362B1 - Half pc slab with additional strengthening of shearing resistance force - Google Patents

Abstract

PURPOSE: A PC slab with a structure for reinforcing shearing resistance force of a panel and a manufacturing method thereof are provided to remarkably reinforce shearing resistance force of a large structure. CONSTITUTION: A PC slab with a structure for reinforcing shearing resistance force of a panel comprises three support ribs(200), composite grooves(210), and lattice bars(300). The support ribs are formed on the bottom surface of a panel(100) at uniform intervals. The composite grooves are formed by etching the outer surfaces of the support ribs located outermost. Parts of the lattice bars are vertically buried in the support ribs, and the other parts are protruded upward.

Description

PCB slab having shear resistance reinforcement structure of panel and manufacturing method of said PC slab {Half PC slab with additional strengthening of shearing resistance force}

The present invention relates to the reinforcement of the shear resistance of the PC slab in the construction of large building structures such as warehouses, factories, underground parking lots, public facilities including underground storage tanks or public housing, which is a plurality of A support rib is formed, and a synthetic groove is formed at an outer end of the support rib to be etched inward to form structural continuity with another panel adjacent thereto, and a lattice muscle standing upright in the vertical direction is embedded in the support rib. The roots are manufactured to have a PC slab having a shear resistance reinforcement structure of the panel and the PC slab, characterized in that the linear triangular linear shapes are symmetrical to each other in the longitudinal direction under load. It is about a method.

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.

The present invention is to solve the above problems, the technical gist of the construction of a large building structure, such as public warehouses, factories, underground parking lot, underground storage tank or public housing, the shear resistance of the PC slab is reinforced The support ribs are formed in the lower part of the panel, the outer end of the support ribs are etched inward to form a composite groove to form structural continuity with the other adjacent panel, the inside of the support ribs The lattice roots, which are standing in the vertical direction, are embedded, and the lattice roots are formed such that the linear triangles of the right triangular shape are symmetrical with each other in the longitudinal direction under load so that the shear resistance in the large structure is greatly reinforced. PC slab having a resistive reinforcing structure and the PC slab To provide a crude method it is an object.

In order to achieve the object of the present invention, in the construction of a PC slab (PC Slab), three support ribs 200 are formed in parallel at equal pitch intervals on the lower surface of the panel 100, and among the support ribs Synthetic grooves 210 etched into the inner side are formed on the outer side of the outer support ribs, and each of the support ribs has a lattice root 300 which is partially embedded in the vertical direction and partially protrudes upward. 300 is formed so that both ends are symmetrical with respect to the longitudinal direction of the panel, one wire rod is extended in a zigzag shape to form a valley with the mountain while proceeding in one direction, the elongated zigzag shape is left relative to the longitudinal end Alternatively, a plurality of inclination lines 310 are formed which are upwardly upward on the right side, respectively, between the inclination lines, respectively, from the top of the inclination line. The down-orthogonal fold line (320) is configured such that a straight form.

At this time, the PC slab is a second lattice root 300-1 consisting of a slope line and a bent line on one side of the one lattice root to be a reference to be arranged in the support ribs after being spaced apart at regular intervals to overlap each other desirable.

In addition, the PC slab is preferably one or more reinforcing steel wire 400 is coupled horizontally along the longitudinal direction of the support ribs on one or more lattice root side to be embedded with the lattice root.

On the other hand, the support ribs 200 are formed so that both ends in the longitudinal direction are shorter than the span length so that the stepping jaw 500 is formed, and the ends of the support ribs 200 which are in contact with the PC girder have three support ribs in an orthogonal direction. It is preferable that the solid wall 600 is formed to reinforce the rigidity of the end structure while being connected to each other.

At this time, it is preferable that the corner reinforcing surface 220 filled with an arc, a triangular body or a polyhedron is formed at an orthogonal portion where the support ribs 200 and the lower edges of the panel 100 are in contact with each other.

In addition, in the manufacturing method of the PC slab according to the present invention, a mold 10 is formed in which a mold 10 is formed so that three support ribs 200 are arranged side by side at the same pitch on the lower surface of the panel 100, and the cast concrete When the compound grooves 11 are coupled to the inner circumferential surfaces of both sides of the sidewall of the mold before forming the mold, the compound grooves 11 are combined to form the compound grooves 210 internally etched on the outer surfaces of the outer support ribs of the support ribs. Before the pour concrete is cured, a lattice root is inserted in each of the supporting ribs in a vertical direction so that a part is embedded and a part is protruded. The lattice root is formed so that both ends thereof are symmetrical with respect to the longitudinal direction of the panel. The wire rod extends in a zigzag shape so as to make a valley with the hill while moving in one direction, and the extended zigzag shape is based on the longitudinal end portion. A plurality of inclination lines 310 which are upwardly uphill, respectively, are formed on the side or the right side, and between each of the inclination lines, a bend line 320 perpendicularly downwardly formed from the top of the inclination line is formed to dry the pour concrete. It is manufactured to reinforce shear resistance.

As described above, the present invention has a plurality of support ribs formed on the lower part of the panel, the outer end of the support ribs are etched inward to form a composite groove so as to form structural continuity with the neighboring other panel, and vertically inside the support ribs. The lattice roots are erected in a direction, but the lattice roots are formed such that the linear triangles of the right triangular shape are symmetric with each other in the longitudinal direction under load, so that the shear resistance in the large structure is greatly strengthened.

1 is a longitudinal longitudinal cross-sectional view of a PC slab according to the present invention;
2 to 4 are longitudinal longitudinal cross-sectional views of FIG. 1, illustrating one or more other embodiments;
5 is an exemplary view showing a manufacturing state of the PC slab according to the present invention,
6 is an exemplary view showing a state where the PC slab of the present invention is seated on the PC girder,
7 is a cross-sectional view taken along the line AA of FIG.
8 is a cross-sectional view taken along line BB of FIG.
9 is an exemplary view showing that the corner reinforcing surface is formed on the PC slab of the present invention.

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

1 to 9, three support ribs 200 are formed on the bottom surface of the plate-shaped panel 100 in parallel at equal pitch intervals, and on the outer side of the outer support ribs of the support ribs. Synthetic grooves 210 etched into the inside are formed to form each.

In this case, when the compound groove is parallel with the other compound grooves adjacent to each other, it is preferable that a predetermined gap (upper injection space) is formed so that the site-pouring concrete can be injected from top to bottom.

Such a compound groove is desirable to ensure the continuity when connecting the slab in the width direction and to be able to be combined with the site concrete.

At this time, as shown in Figures 2 to 4, each of the support ribs is formed with a lattice root 300 is partially embedded in the vertical direction and protrudes upward, the lattice root 300 is the longitudinal direction of the panel Both ends are formed to be symmetrical with respect to each other, and one wire rod extends in a zigzag shape to form a valley with a hill while progressing in one direction, and the extended zigzag shape is a plurality of upwards ascending upwards from left or right, respectively, based on the longitudinal end. Two inclination lines 310 are formed, and the inclination lines 320 vertically orthogonal downward from the top of the inclination lines are formed between the inclination lines.

At this time, the PC slab is a second lattice root 300-1 consisting of a slope line and a bent line on one side of the one lattice root to be a reference to be arranged in the support ribs after being spaced apart at regular intervals to overlap each other desirable.

In addition, the PC slab is preferably one or more reinforcing steel wire 400 is coupled horizontally along the longitudinal direction of the support ribs on one or more lattice root side to be embedded with the lattice root.

In this case, the lattice root 300 is an integral wire rod in which one wire is bent or bent to extend, and is preferably formed of a general shear rebar.

On the other hand, the support ribs 200 are formed so that both ends in the longitudinal direction are shorter than the span length so that the stepping jaw 500 is formed, and the ends of the support ribs 200 which are in contact with the PC girder have three support ribs in an orthogonal direction. It is preferable that the solid wall 600 is formed to reinforce the rigidity of the end structure while being connected to each other.

At this time, it is preferable that the corner reinforcing surface 220 filled with an arc, a triangular body or a polyhedron is formed at an orthogonal portion where the support ribs 200 and the lower edges of the panel 100 are in contact with each other.

In addition, in the manufacturing method of the PC slab according to the present invention, a mold 10 is formed in which a mold is formed such that three support ribs 200 are formed on the bottom surface of the panel 100 in parallel at equal pitch intervals.

Thus, the compounding groove 11 is coupled to the inner circumferential surfaces of both sides of the sidewall of the mold before the pour concrete is filled in the mold so as to form the compound grooves 210 etched inward on the outer surface of the outer support ribs of the support ribs.

Thus, when the pour concrete is filled in the mold, before the pour concrete is cured, a lattice muscle is inserted in each of the supporting ribs in a vertical direction to partially embed and partially protrude the lattice muscle based on the length of the panel. Both ends are formed to be symmetrical with each other.

At this time, the lattice muscle is extended in a zigzag shape so that one wire rod is in the valley with the mountain while proceeding in one direction, and the extended zigzag shape is a plurality of inclination lines 310 which are respectively upwardly uphill from the left or right with respect to the longitudinal end. ) Is formed, and a bend line 320 vertically orthogonally downwardly formed from the top of the inclination line is formed between the inclination lines, so that the shear resistance of the panel is reinforced when the pouring concrete is dried.

That is, the connecting muscles are formed so as to secure manufacturing productivity and precision by combining one assembly muscle (connecting muscle) that is integrally formed by welding or the like, rather than being manually plugged by a worker before curing the panel. .

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.

100 ... panel 200 ... support rib
210 ... Synthetic groove 300 ... Lattice
310 ... Gradient Line 320 ... Bend Line
400 ... steel wire for reinforcement

Claims (6)

In PC Slab for building construction,
Three support ribs 200 are formed side by side at the same pitch interval on the bottom surface of the plate-shaped panel 100, and synthetic grooves 210 etched inward are formed on the outer side surfaces of the outer support ribs of the support ribs, respectively. Each of the support ribs has a lattice root 300 which is partially embedded in the vertical direction and partially protrudes upward. The lattice root 300 is formed so that both ends thereof are symmetrical with respect to the longitudinal direction of the panel. The wire rod extends in a zigzag shape so as to form a valley with the hill while progressing in one direction, and the extended zigzag shape is formed with a plurality of inclination lines 310 upwardly upward from left or right with respect to a longitudinal end, respectively. Each time between the shear resistance of the panel characterized in that the bent line 320 is perpendicularly downwardly perpendicular to the top of the inclination line Precast concrete slab having a steel structure. According to claim 1, wherein the PC slab is a second lattice root 300-1 consisting of the inclination line and the bent line on one side of the lattice root to be a reference to be arranged as overlapping with each other spaced apart at regular intervals to the support rib A PC slab having a shear resistance reinforcement structure of a panel, characterized in that it is embedded. The panel of claim 2, wherein the PC slab is provided with one or more reinforcing steel wires 400 horizontally coupled along the longitudinal direction of the support ribs to one or more lattice roots to be embedded with the lattice roots. PC slab with shear resistant reinforcement structure. According to claim 3, wherein the support ribs 200 are formed at both ends in the longitudinal direction shorter than the span length so that the stepping jaw 500 is formed, the ends of the support ribs 200 to be in contact with the PC girder is three PC slab having a shear resistance reinforcement structure of the panel, characterized in that the solid rib 600 is formed so that the support ribs are connected to each other in the orthogonal direction to reinforce the rigidity of the end structure. The panel of claim 4, wherein the support ribs 200 and the lower edges of the panel 100 are in contact with each other to form a corner reinforcing surface 220 filled with an arc, a triangular body, or a polyhedron. PC slab with shear resistant reinforcement structure. On the lower surface of the plate-shaped panel 100, a mold 10 in which a frame is formed is formed so as to form three support ribs 200 side by side at the same pitch interval, and the inner circumferential surfaces at both ends of the sidewalls of the mold before the pouring concrete is filled into the mold. The composite groove frame 11 is coupled to form the synthetic groove 210 etched inward on the outer surface of the outer support rib of the support ribs, and when the pouring concrete is filled in the mold, each lattice muscle is supported before the pouring concrete is cured. Each rib is inserted in a vertical direction so that a part is embedded and a part is protruded, and the lattice root is formed so that both ends thereof are symmetrical with respect to the longitudinal direction of the panel, and one wire is zigzag-shaped so as to form a valley with a hill running in one direction. Extending upwards, wherein the elongated zigzag shapes are each uphill on the left or right relative to the longitudinal end; An inclination line 310 is formed, and a bend line 320 vertically orthogonally downwardly formed from the upper end of the inclination line is formed between the inclination lines so that the shear resistance of the panel is reinforced when the pouring concrete is dried. Method for manufacturing a PC slab having a shear resistance reinforcement structure of the panel.

Images