KR101588161B1 - Ribbed Precast Concrete Slab and Connection Method Using The Same - Google Patents

Abstract

The present invention relates to a rib PC slab and a method for connecting the same in a width direction, which is configured to dissipate a concentrated load of a rib by forming a slope at both end parts while minimizing the required material quantity using a hollow part partitioned into ribs in a lower part and prevent leakage of concrete during the placement of topping concrete. A favorable embodiment of the present invention comprises: an upper plate formed in the shape of a plate; an inclined plate extended to be tilted downward at both end parts of the upper plate in a longitudinal direction; a side end part rib formed in a longitudinal direction by protruding downward from both lateral end parts of the lower side of the upper plate; multiple central part ribs protruding downward in a longitudinal direction at each point separated at a certain space from both end parts of the lower part of the upper plate in a width direction.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a ribbed concrete slab,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a rib connection method of a rib-shaped slab and a ribbon-shaped slab, and more particularly, to a rib- And to prevent the concrete from leaking when the topping concrete is poured. BACKGROUND OF THE INVENTION

Precast concrete refers to concrete produced by casting various types of molds in factories, and the manufactured concrete members are assembled by being transported to the site. Precast Concrete is simply called PC (PC), and the construction method of building a structure using PC is called PC method.

The most widely used PC method in Korea is a PC composite method, which is a method of converting a structure consisting of a column, beam, and bottom plate into a PC. Various types of bottom plates have been developed and used. Typical examples are Double TSlab, Ribbed Slab, and Hollow Core Slab.

The reverse ribs slab is formed on the upper surface of the slab bottom, and the double-tee slab is formed on the lower surface of the ribs. The ribs (stems) are all protruded, and the prestress is introduced by the tensioned steel wire, . The hollow slab is hollow hollow with hollow inside and is a prestressed hollow hollow slab. The hollow slab is excellent in heat insulation performance, sound insulation performance and fire resistance performance by hollow.

However, in the case of a double-tee slab, it is difficult to connect the slab in the width direction, and the amount of concrete to be back-laid on the upper portion of the longitudinal end portion is small, so that the double slab can not effectively resist the shear.

As a background of the present invention, there is a patent registration No. 10-0340115 entitled "T-type PC slab dock end and a method for constructing a structure using the same" (Patent Document 1).

In the above background art, the thickness of both end portions of the flange supported on the PC beam is made thicker than the thickness of the middle portion, and the entire length of the web is formed at a position inwardly extended from both ends of the flange by a predetermined length, The T-shaped PC slab-dab end is shown in Fig. As a result, unlike existing dabs, where the stress concentration on the edge due to shear force is solved by complicated reinforcement, there is an advantage in that the effective shear strength can be improved by increasing the effective cross section of the concrete. However, It is difficult to connect the slabs in the width direction and there is a problem that the amount of concrete to be back-laid on the upper part of the longitudinal direction ends is not so small, so that the slabs can not effectively resist the shear.

Patent Registration No. 10-0340115 'T-type PC slab dab end and method of constructing structure using it'

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a manufacturing method of a plywood slab, which is capable of minimizing the amount of water by forming a hollow portion in a lower portion thereof, It is possible to increase the compressive resistance area to resist and to prevent the leakage of concrete when the topping concrete is poured, and also to form a separate connecting piece and a sheath hole, so that the slabs can be easily continuous in the width direction. The present invention has been made in view of the above problems.

The present invention relates to an upper plate formed in a plate shape; An inclined plate extending downward at both longitudinal ends of the top plate; Side end ribs projecting downward at both widthwise ends of the lower surface of the upper plate and formed in the longitudinal direction; And a plurality of central ribs protruding downward at positions spaced a predetermined distance apart from both ends of the lower surface of the upper plate in the width direction, the ribs being formed in the longitudinal direction.

Also, the slope plate is provided with a transverse reinforcing steel at each of the upper and lower portions, and the reinforcing steel rods are formed at regular intervals so as to interconnect the upper and lower transverse reinforcing bars.

In addition, the slope plate is provided with a slanted groove on the outer slope at predetermined intervals in the width direction of the upper plate.

The lower end edge of the outer end of the side end rib is formed with a side groove having a predetermined size in the longitudinal direction and a central groove is formed in the center of the lower surface of the central rib in the longitudinal direction. I want to.

Also, an upper part of the outer end of the upper plate in the width direction is cut in a longitudinal direction with a predetermined size to form a coupling groove.

In addition, the connection hardware in which the coupling grooves and the fixing holes are formed in the upper and lower portions of the concave groove, respectively, are formed in a vertically formed thin plate shape, And a joint groove and a coupling hole are embedded at both side ends of the upper plate at a position spaced apart in the direction of the end portion in the width direction so as to protrude from the coupling groove.

Further, the upper plate has fixing grooves formed on the upper surfaces on both sides in the width direction of the longitudinal center portion, and a sheath hole is formed through one side of the fixing groove to the outer side of the upper plate to provide a rib plate slab .

Also, a plurality of shear reinforcing bars are provided so as to protrude at a predetermined height from the upper portion of the upper plate in the longitudinal direction in which the center rib of the upper plate is formed.

Also, the shear reinforcement is formed such that the main bars formed by bending vertically so as to have a constant amplitude and a wavelength are arranged at both ends in the longitudinal direction of the central ribs to a predetermined length in the lengthwise middle portion of the central ribs, Wherein the first auxiliary muscles are formed at both ends in the longitudinal direction of the central rib so that the main muscles and the upper and lower portions thereof intersect with the main muscles so as to have the same amplitude and wavelength as the main muscle, A pair of lattice roots bent upward and downward so as to have an amplitude and a wavelength correspond to the upper and lower portions of the lattice, and the second auxiliary roots formed so as to cross each other intersect with the main roots and the first auxiliary roots, And the slab is formed at both ends of the slab.

The present invention also provides a method of connecting a ribbon PC slab in a widthwise direction, wherein the ribs PC slabs are disposed adjacent to each other in the width direction, and the connecting hardware of the adjacent rib PC slabs is fitted to the U- .

Further, it is preferable that the engaging pieces are inserted into the upper and lower portions of the groove of the connecting hardware, and then the engaging pieces are mutually fixed with the bolts and the nuts, Directional connection method.

The widthwise connection method of the ribspeed slab and the ribspeed slab of the present invention is characterized in that a hollow portion is formed at the lower portion to minimize the amount of water and to ensure the structural continuity of the ends by forming inclined surfaces at both ends, It is possible to increase the area of compression resistance against the momentum and to prevent the leakage of concrete when the topping concrete is poured, and it is also very effective to make the slabs continuous in the width direction by constituting separate connecting pieces and sheath holes have.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate exemplary embodiments of the invention and, together with the description, serve to explain the principles of the invention, Shall not be construed as limiting.
1 is a perspective view of a rib PC slab of the present invention.
2 is a cross-sectional view taken along line AA of FIG.
3 is a cross-sectional view taken along line BB in Fig.
4 is a cross-sectional view taken along line CC in Fig.
5 is a cross-sectional view taken along line DD of Fig.
6 is a view showing an embodiment of a shear reinforcement of a rib PC slab of the present invention.
FIG. 7 is a view showing an embodiment of connecting the rib PC slabs of the present invention in the width direction. FIG.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described in detail below with reference to the embodiments shown in the accompanying drawings, but the present invention is not limited thereto.

The ribspeed slab of the present invention has a hollow portion formed by ribs at its lower portion to minimize the amount of water to form a slope at both ends so as to disperse the concentrated loads of the ribs and prevent leakage of concrete when the topping concrete is poured.

Hereinafter, the technical structure of the present invention will be described in detail with reference to the preferred embodiments.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view of a rib PC slab of the present invention, and FIGS. 2 to 5 are cross-sectional views taken along line A-A, B-B, C-C and D-D in FIG.

1, the rib plate slab 1 of the present invention includes a top plate 110, a swash plate 140 formed to be inclined downward at both longitudinal ends of the top plate 110, The side end ribs 120 and the central ribs 130 are integrally formed.

The top plate 110 is made of a thin concrete plate having a thickness of about 50 to 90 mm, and the width and length can be applied differently depending on the span of the application.

As shown in FIG. 2, at both ends of the top plate 110 in the longitudinal direction, a swash plate 140 extending downwardly is formed. The swash plate 140 ensures the structural continuity of the ends and increases the area of the compression resisting against the end moments and prevents leakage of the concrete when the topping concrete is poured. It also facilitates the placement of concrete and reinforcement. That is, when the swash plate 140 is at right angles, the gap between the swash plate 140 and the beam is narrow, so that it is necessary to manage the concrete when the concrete is poured. It is difficult to arrange the reinforcing steel, and the longitudinal end portion of the top plate 110 is inclined, And the strength is increased as the upper end surface of the beam is enlarged at the same time. The angle of inclination of the swash plate 140, that is, the angle with which the PC beam is contacted can be determined within a range in which there is no problem in ensuring the integrity, the arrangement of the roots and the mold, and can be 30 to 63 degrees, for example.

Particularly, the swash plate 140 is provided with a slanting groove 145 at a predetermined interval in the width direction of the upper plate 110 on the outer slant surface so that the slanting plate 140 is also introduced into the slanting grooves 145 when the concrete is poured, have.

The transverse reinforcing ribs 142 and 142 are embedded in the upper and lower portions of the swash plate 140 formed in the transverse direction so that the upper and lower transverse reinforcing ribs 142 and 142 are connected to each other. It is possible to effectively improve the connection performance of the continuous short joints, which are vulnerable to the load, by configuring the lateral reinforcing bars 143 at regular intervals in the longitudinal direction of the transverse reinforcing bars 142.

A side end rib 120 and a central rib 130 are formed in the lower portion of the top plate 110 in the lateral direction.

The side ribs 120 are formed in the longitudinal direction at the opposite ends of the lower surface of the upper plate 110 in the width direction and the central ribs 130 are formed at both ends in the width direction of the lower surface of the upper plate 110, And a plurality of protrusions are formed in the longitudinal direction.

The side ends ribs 120 and the center ribs 130 are spaced apart from each other by a predetermined distance so that the ends of the side end ribs 120 and the center ribs 130 are spaced apart from each other Lt; / RTI >

As described above, the space portion 170 defined by the side end ribs 120 and the central ribs 130 formed at the lower portion of the top plate 110 is formed to reduce the weight of the concrete and reduce the weight of the slab itself do.

The upper portion of the upper end of the upper plate 110 in the width direction is cut in a longitudinal direction with a predetermined size to form a coupling groove 111. When the slab is coupled in the width direction, So that the structural continuity can be ensured.

FIG. 7 is a view showing an embodiment of connecting the rib PC slabs of the present invention in the width direction. FIG.

As shown in FIGS. 3 to 5, the width of the side end ribs 120 is formed to be half the width of the center ribs 130, so that, as in FIGS. 7A and 7C, Since the side end ribs 120 and 120 of the adjacent rib-shaped slabs 1 and 1 are formed to have the same width as that of the central rib 130 when the ribs 120 and 120 are connected to each other in the width direction, It is possible to prevent the widthwise joint between the rib-shaped slabs 1 from being exposed by forming the same width continuously from the bottom of the structure such as a bridge where the rib-shaped slabs 1 are installed.

3, the lower outer edge of the outer end of the side end rib 120 may be formed with a side groove 121 of a predetermined size in the longitudinal direction to prevent breakage of the edge. In this case, A central groove 131 may be formed in the center of the lower surface of the central rib 130 in the longitudinal direction.

7A, when the side end ribs 120 (120) of the adjacent rib-shaped slabs 1 (1) are in contact with each other when the rib-shaped slabs 1 of the present invention are connected in the width direction, 121 and 121 are combined to form a single groove so that a central groove 131 having the same shape is formed on the lower surface of the central rib 130 so that the bridge ribs 1, The same side grooves 121 and the central grooves 131 are continuously formed so that the widthwise joints between the ribs 1 and the slabs 1 are not exposed.

For most bending members, the maximum rise difference from the design soot is 20 mm, and the maximum floating soaring difference between adjacent and similarly designed unit members is 20 mm. This value can be increased at the junction where the composite structure is used. Therefore, the connection hardware 160 and / or the sheath hole 113 may be formed so as to reduce a step due to the rising at the connection portion in the widthwise connection of the ribsPC slab 1 formed with the lateral ribs and hollow portions So that the width direction connection can be facilitated.

As shown in FIG. 7B, the connection hardware 160 is formed as a vertically-formed thin plate and has a concave groove 161 formed in one side thereof. The concave concave portion 160 is formed in an upper portion and a lower portion of the concave groove 161, 1 and 7A, the width of the top plate 110 at a position spaced apart from the center in the longitudinal direction of the top plate 110 by a predetermined distance in the direction of the end, as shown in FIGS. 1 and 7A, The concave groove 161 and the engaging hole 162 are formed so as to protrude from the engaging groove 111. [

At this time, as shown in FIG. 1, the connection hardware 160 may be inserted through the fixing holes 163 to fix the fixing rods 164 therebetween.

7B, the connecting hardware 160 may be formed by connecting the connecting hardware 160 (160) of the adjacent slab 1 (1) to the U-shaped rope (1) 180 are fitted and fixed to the coupling holes 162 and 162 and the coupling pieces 190 are inserted into the upper and lower portions of the groove 161 and 161 of the coupling hardware 160 and 160, 193 and the nut 194 to mutually fix the engaging pieces 190. [

The upper plate 110 is formed with fixing grooves 112 on both sides in the widthwise central portion in the longitudinal direction and penetrates from one side of the fixing groove 112 to the outer side of the upper plate 110, 113 are formed so that a tension member or a bolt 148 or the like is inserted to simultaneously penetrate the sheath holes 113 and 113 of the adjacent rib cup slab 1 So that the structural continuity can be ensured by connecting the ribs 1 and the slabs 1 in the width direction.

6 is a view showing an embodiment of a shear reinforcement of a rib PC slab of the present invention.

In the ribbed concrete slab 1, a large shearing force is generated in the rib 130 when a long span and a heavy load are applied. In order to resist the ribs 130 only with the concrete section, a large dancing is required. Therefore, in the present invention, the front end reinforcing bars 300 may be arranged in the longitudinal direction of the central ribs 130 to resist the shearing force of the concrete along with the end faces of the concrete, and may be protruded above the top plate 110 of the central ribs 130, As a shear connection material which improves the integrity of the sheathing.

As shown in FIG. 6, the shear reinforcing bars 300 may be formed in various shapes. In particular, as shown in FIG. 6, reinforcing ribs 130 are formed by reinforcing a single reinforcing steel bar The mountain portion bent by the waveform of the shear reinforcing bars 300 is installed so as to be exposed above the central ribs 130 so that it can be used as a double girder when the slab is used. It is possible to improve the synthesis effect with the overburden concrete which is put into the field as a joint material and to facilitate the work of placing the upper slab reinforcement.

Particularly, the main ribs 310 are formed in the center ribs 130 and the first auxiliary ribs 320 are formed at both ends in the longitudinal direction of the central ribs 130, The second auxiliary muscles 330 may be arranged so as to cross each other to resist a shear force acting largely at the ends.

As shown in FIG. 6 (a), the main roots 310 are formed such that the longitudinal center portions of the central ribs 130 are embedded at both ends in the longitudinal direction of the central ribs 130 to a position exceeding a predetermined length, Respectively.

The first auxiliary muscles 320 are formed only at both ends in the longitudinal direction in which the shear force of the central rib 130 largely acts. 6C, the first auxiliary muscle 320 is formed to have the same shape as that of the main muscle 310, but has a waveform opposite to that of the main muscle 310, so as to intersect with the main muscle 310 do.

 The second auxiliary muscle 330 is formed such that a pair of lattice roots 331 and 332 bent upward and downward to have the same amplitude and wavelength as that of the main muscle 310 are constructed so that their upper and lower portions correspond to each other .

Therefore, the main muscle 310, the first auxiliary muscle 320, and the second auxiliary muscle 330 may be mutually intersected so as to cross each other to resist the shearing force acting on the end portion .

The method of connecting the ribspeed slabs of the present invention in the width direction comprises the steps of disposing the ribspeed slabs 1 adjacent to each other in the width direction and attaching the connecting steelworks 1 of the ribspeed slabs 1 having the adjacent lateral ribs and hollows 160 may be fixed to the coupling holes 162 and 162 by U-shaped roots 180 as shown in FIGS. 3B and 3C.

When the stepped portion of the adjacent rib PC slabs 1 is generated, it is difficult to fit the U-shaped rope 180 into the direct coupling holes 162 and 162, The engaging pieces 190 are inserted into the upper and lower portions of the grooves 161 and 161 of the U-shaped grooves 161 and then the engaging pieces 190 are tightened with the bolts 193 and the nuts 194, And can be fitted and fixed to the coupling holes 162 and 162. The coupling piece 190, the bolt 193 and the nut 194 are removed after the U-shaped rope 180 is inserted, and the topping concrete can be placed on the upper portion.

As shown in the figure, when the two coupling pieces 190 are respectively positioned at the upper and lower portions so as to form the concave groove at the central portion as shown in the figure, the distance of the portion where the concave portions are formed is the longest, So that the distance between both sides can be narrowed.

The method of connecting the ribspeed slabs and the ribspeed slabs of the present invention as described above has a hollow portion formed at the lower portion to minimize the amount of water and to provide the structural continuity of the ends by forming inclined surfaces at both ends, It is possible to increase the compressive resistance area to overcome the end moments and to prevent the leakage of concrete when the topping concrete is poured, and also to form a separate connecting piece and a sheath hole, There is a useful effect.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art in light of the above teachings. will be. The invention is not limited by these variations and modifications, but is limited only by the claims appended hereto.

1: rib plate slab
110: top plate
120: side end rib
130: central rib
140: swash plate
160: Connection hardware
170:
300: shear reinforcement

Claims (11)

A slanting plate 140 extending downwardly at both ends in the longitudinal direction of the top plate 110 and a pair of protrusions 140 projecting downward at both side ends in the width direction of the lower surface of the top plate 110 A plurality of central ribs 130 protruding downward at positions spaced a predetermined distance apart from both ends in the width direction of the lower surface of the upper plate 110 and formed in the longitudinal direction, In the rib PC slab,
An upper portion of the outer end in the width direction of the upper plate 110 is cut in a longitudinal direction with a predetermined size to form a coupling groove 111,
At both side ends in the width direction of the top plate 110 at a position spaced apart from the center in the longitudinal direction of the top plate 110 by a predetermined distance there is formed a vertically formed thin plate- And a connecting piece 160 formed with through holes 162 and a fixing hole 163 at upper and lower portions of the concave groove 161 are formed in the concave groove 161 and the concave hole 162, Is embedded so as to protrude from the coupling groove 111,
The engaging pieces 190 are fitted into the upper and lower portions of the concave grooves 161 and 161 of the connecting hardware 160 and the engaging pieces 190 are fastened with the bolts 193 and the nuts 194, And the U-shaped roots (180) are fitted to the engaging holes (162) (162) after the stepped portion is reduced, whereby the adjacent slabs are fixed to each other. The method according to claim 1,
The swash plate 140 is provided with transverse reinforcing bars 142 and 142 at upper and lower portions and annular roots 143 at regular intervals to interconnect the upper and lower transverse reinforcing bars 142 and 142 Wherein the slab is a slab. The method according to claim 1,
Wherein the swash plate (140) is provided with an installation groove (145) at an outer side slope at regular intervals in the width direction of the top plate (110). The method according to claim 1,
The lower outer edge of the outer end of the side end rib 120 is formed with side grooves 121 of a certain size in the longitudinal direction,
And a central groove (131) is formed in a central portion of a lower surface of the central rib (130) in the longitudinal direction. delete delete The method according to claim 1,
The upper plate 110 is formed with fixing grooves 112 on both sides in the widthwise central portion of the longitudinal direction and penetrates from one side of the fixing groove 112 to the outer side of the upper plate 110, Is formed on the outer circumference of the slab. The method according to claim 1,
Wherein a plurality of shear reinforcing bars (300) are installed so as to protrude at a predetermined height from the upper portion of the upper plate (110) in the longitudinal direction in which the central ribs (130) of the upper plate (110) are formed. The method of claim 8,
The shear reinforcing bars (300)
The main rods 310 bent up and down so as to have a constant amplitude and a wavelength are arranged at both ends in the longitudinal direction of the central rib 130 to reach a predetermined length in the longitudinal center portion of the central rib 130, ), And a plurality of second guide portions
The first auxiliary muscle 320 is bent upward and downward so as to have the same amplitude and wavelength as the main muscle 310. The first auxiliary muscle 320 has a length of the central rib 130 so that the main muscle 310 and the upper and lower ends of the first auxiliary muscle 320 intersect with the main muscle 310, Direction,
A pair of lattice roots 331 and 332 bent upward and downward so as to have the same amplitude and wavelength as those of the main axis 310 are formed so as to correspond to the upper and lower portions of the main lath 310, Is formed at both longitudinal ends of the central rib (130) so as to intersect with the main rope (310) and the first auxiliary roots (320), respectively. A method of connecting a ribbon PC slab of claim 1 in a width direction,
The ribsPC slabs 1 are arranged adjacent to each other in the width direction,
The bolts 193 and the nuts 194 are inserted into the upper and lower portions of the concave grooves 161 and 161 of the connecting hardware 160 and 160 of the adjacent rib PC slab 1, The joining piece 190 is tightened to adjust the step between adjacent rib-shaped slabs 1, 1,
(180) are fitted in the engaging holes (162) and (162) so that the adjacent rib-shaped slabs (1) (1) are mutually fixed. delete

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