KR100775580B1 - Precast concrete deck module being connected by roof steel and precast concrete deck having such module - Google Patents

Abstract

A precast concrete deck module having a joint structure, a joint structure of the precast concrete deck module and a precast concrete deck having the module are provided to prevent deck modules from being damaged while putting the deck modules into contact with each other by reinforcing a projecting part with loop reinforcing bars effectively. A precast concrete deck module(10) is provided to form a precast concrete deck by assembling with other precast concrete deck modules, wherein projecting parts(12) are formed on the lower part of two ends of the deck module and a half concave part(13) is formed on the upper part of the projecting part to form a concave filling part when the adjoining deck modules put opposite to each other, a loop reinforcing bar(11) is arranged on the deck module in the vertical direction to make the lower part(11a) of the loop reinforcing bar buried in the projecting part and the upper part(11b) of the loop reinforcing bar exposed to the concave part to make the lower part of the loop reinforcing bar function as a distribution bar of the projecting bar and reinforce the projecting bar to bear the compressive force and bending force added on the projecting bar, and a concave stepped part is formed on the top of the projecting part between the loop reinforcing bars to make the loop reinforcing bars of the adjoining deck modules located to cross each other.

Description

Precast Concrete Deck Module with Reinforced Loop Reinforced Joints, Joints and Precast Concrete Deck Having Such Modules

1A is a schematic perspective view of a conventional bottom plate module with a loop rebar.

FIG. 1B is a side view illustrating a structure in which the bottom plate module illustrated in FIG. 1A is installed in a bridge mold and connected to each other.

Figure 2a is a schematic perspective view showing an embodiment of a floor module according to the present invention is a plurality of connected to form a precast concrete floor plate.

FIG. 2B is a side view of the bottom plate module viewed in the direction of arrow A in FIG. 2A.

Figure 3a is a schematic perspective view showing an enlarged portion of the joints of both bottom plate modules in order to show that the bottom plate modules are connected to each other in accordance with the present invention.

3B is a plan view of the state shown in FIG. 3A.

FIG. 3C is a side view of the arrow B direction of FIG. 3A showing a state in which both bottom plate modules are connected to each other. FIG.

* Explanation of symbols for the main parts of the drawings *

 1 precast concrete deck

 10 Baseplate Module 11 Loop Reinforcement

 12 protrusion 13 recess

The present invention relates to a precast concrete deck plate module, and a joint structure of such a deck plate module and a bottom plate having the same. Specifically, a loop reinforcing bar in a precast concrete deck plate having a joint structure by a loop reinforcement The present invention relates to a precast concrete deck module having a new structure that can prevent the protrusion from being broken during construction by reinforcing a protrusion forming a recess of the bottom plate module, and a joint structure of the bottom plate module and a bottom plate having the same. will be.

In the construction of precast concrete deck, a technique of constructing the deck by dividing it into several precast concrete deck modules (hereinafter, abbreviated as "floor module") and then assembling them in the field is known. It is. As described above, in assembling the floorboard module in the field, a joint structure is known in which a loop reinforcing bar is installed on one side of the floorboard module to form a rigid connection between the floorboard modules.

FIG. 1a shows a schematic perspective view of a bottom plate module with such a loop reinforcement, and FIG. 1b shows a side view showing a structure in which the bottom plate module shown in FIG. 1a is installed in a bridge mold and connected to each other. have. As shown in the figure, the bottom plate module 100 having a conventional loop reinforcement, protrusions 102 are formed below both end portions thereof, and recesses 103 are formed thereon, and a roof shape is provided. The loop reinforcement 101 is arranged so that the reinforcing bar end is exposed to the recess 103. When the bottom plate module 100 is placed on the mold 200 to face each other, the concave portion 103 creates a concave portion and fills the loop reinforcement 101 exposed to the concave portion 103. Both ends of the loop form are arranged to overlap each other at the filling portion. As such, the filling material 104 is filled and finished in the filling part in a state in which the loop reinforcement 101 is overlapped in the concave part 103, so that the bottom plate modules 100 of both sides are integrally connected and assembled. Will be achieved.

However, in the conventional joint structure using the loop reinforcement 101, the protrusions 102 forming the recesses 103 face each other, and the protrusions 102 in the process of approaching and facing the bottom plate module 100 on both sides. Breakages such as) collide with each other often occur. As shown in the figure, the protrusion 102 protrudes in the lateral direction of the bottom plate module 100, and the thickness of the protrusion 102 must be thin as compared to the thickness of the bottom plate, thereby substantially no reinforcement is made. Since it can only be made of plain concrete, it is easily broken or broken by impact force or bending moment caused by small impact.

If the protruding portion 102 is broken, the filling portion cannot be formed properly, thereby causing a serious problem that the joint of the entire bottom plate module 100 is weakened and the stability is lowered.

The present invention was developed to solve the problems occurring in assembling and connecting the bottom plate module with a loop reinforcement to produce a precast concrete deck as described above, by effectively reinforcing the protrusion exposed roof reinforcement both sides bottom An object of the present invention is to provide a bottom plate module having a new structure to prevent breakage in the process of butting plate modules, and a joint structure of the bottom plate module and a bottom plate having the same.

In order to achieve the above object, in the present invention, as a precast concrete deck module to be assembled and connected to each other to form a precast concrete deck, the bottom of each end of the bottom module is formed with protrusions, the neighboring bottom board A half-shaped recess is formed at the top of the protrusion by the protrusion to form a concave filling portion when the module faces each other; A loop reinforcement is reinforced inside the bottom plate module so that the reinforcing end portion of the loop shape is exposed to the concave portion, and a lower portion of the loop reinforcement is embedded in the protrusion to function as a reinforcement reinforcement for reinforcing the protrusion. The top of is exposed to the recess; In the position between the loop reinforcement, when the neighboring bottom plate module is facing, the reinforcing bar ends of the loop reinforcement provided in the neighboring bottom plate module are located so that the reinforcing bar ends of both loop bars are alternately overlapped with each other in the recess. On the upper surface of the protrusion is provided a precast concrete deck module, characterized in that the recessed stepped portion is formed.

In the precast concrete slab module according to the present invention as described above, the inner side of the slab module is further disposed in the transverse tension material to be reinforced by applying a prestressing force in the direction of the staggered perpendicular to the axially perpendicular to the deck module. Can be.

In addition, in the present invention, the joint structure of the precast concrete deck module to be assembled and connected to each other to form a precast concrete deck, the projections are formed at both ends of the bottom plate module, the neighboring bottom board module A half-shaped recess is formed at the top of the protrusion so as to form a concave portion when the recess is formed; A loop reinforcement is reinforced inside the bottom plate module so that the reinforcing end portion of the loop shape is exposed to the concave portion, and a lower portion of the loop reinforcement is embedded in the protrusion to function as a reinforcement reinforcement for reinforcing the protrusion. The top of is exposed to the recess; A concave stepped portion is formed on an upper surface of the protrusion at positions between the loop bars; With the end portions of the protruding portions of the neighboring bottom plate modules contacted with each other so that the reinforcing bar ends of the loop reinforcement provided in the neighboring bottom plate module are positioned so that the reinforcing end portions of both loop bars are alternately overlapped with each other in the recess. The filling structure of the filling portion formed by the concave portion is provided with a joint structure of the precast concrete deck plate module, characterized in that both bottom plate modules are integrally connected.

In addition, the present invention is a precast concrete floor plate formed by assembling and connecting a plurality of precast concrete deck module, each of the lower end of the bottom module is formed with protrusions, respectively, when the neighboring floor module facing A half-shaped recess is formed at the top of the protrusion by the protrusion 12 to form a concave filling portion; A loop reinforcement is reinforced inside the bottom plate module so that the reinforcing end portion of the loop shape is exposed to the concave portion, and a lower portion of the loop reinforcement is embedded in the protrusion to function as a reinforcement reinforcement for reinforcing the protrusion. The top of is exposed to the recess; A concave stepped portion is formed on an upper surface of the protrusion at positions between the loop bars; With the ends of the protruding portions of the neighboring bottom plate modules contacted with each other so that the reinforcing bar ends of the loop bars provided in the neighboring bottom plate modules are positioned so that the reinforcing bars of the roof bars are alternately overlapped with each other in the concave portion, The filling material is filled in the filling portion formed by the concave portion is provided with a precast concrete floor plate, characterized in that the two bottom plate modules are integrally connected to form a full bottom plate.

Next, the configuration and effect of the present invention will be described with reference to the accompanying drawings.

Figure 2a is shown in a schematic perspective view of one embodiment of the floorboard module 10 according to the present invention in which a plurality are connected to form a precast concrete floorboard 1. FIG. 2B shows a side view of the bottom plate module 10 viewed in the direction of arrow A in FIG. 2A.

As shown in the drawings, the lower end of the bottom plate module 10 according to the present invention is formed in the projections 12, respectively, and by the projections 12 in the upper half of the projections (12) The part 13 is formed. Therefore, when the bottom plate modules 10 on both sides face each other, the protrusions 12 of the both bottom plate modules 10 are in contact with each other, the concave portion 13 is facing each other and the filling portion of the concave shape To form. The roof reinforcement 11 is disposed in the bottom plate module 10 in the longitudinal direction. The end of the loop reinforcement 11 is formed in a loop shape, the main body of the loop reinforcement 11 is embedded in the concrete of the bottom plate module 10, the end of the loop reinforcement 11 is a recess 13 Exposed to The lower portion 11a of the loop reinforcement 11 is embedded in the protrusion 12, and the upper portion 11b of the loop reinforcement 11 is exposed to the recess 13.

As described above, since the lower portion 11a of the loop reinforcement 11 is embedded in the protrusion 12, the lower portion 11a of the loop reinforcement 11 embedded in the protrusion 12 is a protrusion 12. It acts as a reinforcing bar of, and bears the compressive force and the bending stress acting on the protrusion 12. Since the protrusions 12 are reinforced by the lower portion 11a of the loop reinforcement 11 as described above, the protrusions 12 collide with each other in the process of approaching and facing the bottom plate modules 10 on both sides, thereby compressing or bending stress. Even if it acts on this protrusion 12, the breakage, such as break of the protrusion 12, does not occur.

In installing the loop reinforcing bar 11 so that the lower part 11a is buried in the protrusion part 12, considering the connection with the adjacent loop reinforcing bar 11, the upper surface of the lower part 11a of the loop reinforcing bar 11 is It is preferable to embed the lower portion 11a of the loop reinforcement 11 in the protrusion 12 to a depth that coincides with the upper surface of the protrusion 12.

On the other hand, in consideration of the connection between the adjacent bottom plate module 10 between the loop reinforcement 11 between the upper surface of the protrusion 12 can be fitted with the loop reinforcement 11 of the neighboring bottom plate module 10. A concave stepped portion 14 is formed. That is, as shown in FIG. 2B, at the position between the loop bars 11, the stepped portion 14 which is recessed in the upper surface of the protrusion part 12 is formed. The stepped portion 14 has a loop reinforcing bar 11 provided in the neighboring bottom plate module 10 is located. Therefore, in the present invention, the loop reinforcing bars 11 formed on both sides of the bottom plate module 10 are arranged so that their positions are shifted from each other.

Figure 3a is a schematic perspective view showing an enlarged portion of the joint portion of both bottom plate modules 10 to show the state in which both bottom plate modules 10 having the structure as described above are connected to each other. FIG. 3B shows a plan view of the state shown in FIG. 3A. 3C is a side view of the arrow B in FIG. 3A showing a state in which both bottom plate modules 10 are connected to each other. In FIG. 3A and FIG. 3B, the filling material 16 is shown in the state in which the filling material 16 was not filled, and in FIG. 3C, the filling material 16 is shown in the filling state.

As shown in the figure, when the two sides of the bottom plate module 10 face each other such that the ends of the protrusions 12 abut, the half recesses 13 made by the protrusions 12 are adjacent bottom plate modules 10. Together with the half concave portion 13), a concave-shaped filling portion is formed. At this time, the loop ends of the loop reinforcing bars 11 exposed to the concave portions 13 are arranged to overlap at positions displaced from each other in the filling portion.

In particular, in the present invention, since the concave step portion 14 is formed on the upper surface of the protrusion 12 between the loop bars 11 where the loop reinforcement 11 is not located, the lower portion 11a is embedded in the protrusion 12. The ends of the loop reinforcement 11 of the neighboring bottom plate module 10 are located in the concave step 14, so that the ends of the loop reinforcement 11 overlap each other at staggered positions. Will be.

When both bottom plate modules 10 face each other to form a filling portion and the loop ends of the loop reinforcing bars 11 overlap in the filling portion, the filling material 16 is filled in the filling portion. It is preferable to use non-shrink mortar as the filler 16, but the filler 16 is not necessarily limited to non-shrink mortar. It is also preferable to reinforce the reinforcing bars (not shown in the figure) in the direction perpendicular to the end of the loop, that is, in the direction perpendicular to the drawing.

As such, the bottom plate modules 10 face each other so that the loop reinforcement 11 is embedded and cured in the filling material in a state where the loop reinforcement 11 overlaps each other, so that the bottom plate modules 10 on both sides are firmly connected to each other.

In the drawing, the member number 15 is a transverse tension member 15 disposed in the transverse direction inside the bottom plate module 10, and may be configured to introduce a compressive force by prestressing in the axially perpendicular direction through the tension of the tension member 15. have. Although not shown in the drawings if necessary, shear pockets may be installed in the bottom plate module 10 for coupling with the mold of the bridge.

As described above, in the present invention, both bottom plate modules are firmly connected to form one integrated precast concrete floor plate, and the lower portion 11a of the loop reinforcement 11 is embedded in the protrusion 12. Be sure to

Therefore, the lower portion 11a of the loop reinforcement 11 embedded in the protrusion 12 functions as a lifting reinforcement of the protrusion 12 to bear the compressive and bending stress acting on the protrusion 12, and thus the protrusion ( 12 is reinforced by the lower portion 11a of the loop reinforcing bar 11, so that the protrusions 12 collide with each other in the process of approaching and facing the bottom plate modules 10 on both sides, so that the compressive or bending stresses are extruded. Even if it acts on, the effect that breakage, such as breaking of the projection part 12, does not occur is exhibited.

Although the embodiments of the present invention have been described above, the present invention is not limited to the described embodiments, and free modifications and improvements can be made within the spirit and claims of the present invention.

Claims (4)

A precast concrete deck plate module 10, which is assembled and connected to each other to form a precast concrete deck plate 1, Protruding portions 12 are formed at both lower ends of the bottom plate module 10, respectively, and the protrusions are formed on the upper portion of the protruding portion 12 to form a concave portion when the neighboring bottom plate module 10 faces. A half-shaped recess 13 is formed by (12); A loop reinforcing bar 11 is disposed inside the bottom plate module 10 so that the reinforcing end of the loop type is exposed to the recess 13, and the lower part 11a of the loop reinforcing bar 11 is the protrusion 12. Is buried in the protrusion 12 so as to function as a reinforcing bar for reinforcing) and an upper portion 11b of the loop reinforcing rod 11 is exposed to the recess 13; In the position between the loop reinforcement 11, when the neighboring bottom plate module 10 is facing, the reinforcing bar ends of the loop reinforcement 11 provided in the neighboring bottom plate module 10 is located so that both loop reinforcement 11 Precast concrete floorboard module, characterized in that the concave stepped portion (14) is formed on the upper surface of the protrusion (12) so that the reinforcing end of the c) overlaps with each other in the recess (13). The transverse tension member (15) according to claim 1, wherein the transverse tension member (15) is further disposed inside the bottom plate module (10) so as to be tensioned perpendicularly to the bottom plate module (10) to apply a prestressing force in the direction of the orthogonal direction to the bottom plate module (10). Precast concrete deck plate module characterized in that. As a joint structure of the precast concrete deck plate module 10, which is assembled and connected to each other to form a precast concrete deck plate (1), Protruding portions 12 are formed at both lower ends of the bottom plate module 10, respectively, and the protrusions are formed on the upper portion of the protruding portion 12 to form a concave portion when the neighboring bottom plate module 10 faces. A half-shaped recess 13 is formed by (12); A loop reinforcing bar 11 is disposed inside the bottom plate module 10 so that the reinforcing end of the loop type is exposed to the recess 13, and the lower part 11a of the loop reinforcing bar 11 is the protrusion 12. Is buried in the protrusion 12 so as to function as a reinforcing bar for reinforcing) and an upper portion 11b of the loop reinforcing rod 11 is exposed to the recess 13; A concave stepped portion 14 is formed in the upper surface of the protrusion 12 at the position between the loop reinforcing bars 11; Ends of the protrusions 12 of the neighboring bottom plate module 10 are disposed to be in contact with each other so that the reinforcing bar ends of the loop reinforcement 11 provided in the neighboring bottom plate module 10 are positioned so that In the state where the reinforcing end portions are alternately overlapped with each other in the recess 13, the filling material 16 is filled in the filling portion formed by the recess 13 so that both bottom plate modules 10 are integrally connected. The joint structure of the precast concrete deck module, characterized in that. As the precast concrete deck plate (1) is formed by a plurality of precast concrete deck board module 10 is assembled and connected to each other, Protruding portions 12 are formed at both lower ends of the bottom plate module 10, respectively, and the protrusions are formed on the upper portion of the protruding portion 12 to form a concave portion when the neighboring bottom plate module 10 faces. A half-shaped recess 13 is formed by (12); A loop reinforcing bar 11 is disposed inside the bottom plate module 10 so that the reinforcing end of the loop type is exposed to the recess 13, and the lower part 11a of the loop reinforcing bar 11 is the protrusion 12. Is buried in the protrusion 12 so as to function as a reinforcing bar for reinforcing) and an upper portion 11b of the loop reinforcing rod 11 is exposed to the recess 13; A concave stepped portion 14 is formed in the upper surface of the protrusion 12 at the position between the loop reinforcing bars 11; Ends of the protrusions 12 of the neighboring bottom plate module 10 are disposed to be in contact with each other so that the reinforcing bar ends of the loop reinforcement 11 provided in the neighboring bottom plate module 10 are positioned so that In the state where the reinforcing end portions are alternately overlapped with each other in the recess 13, the filler 16 is filled in the filling portion formed by the recess 13 so that both bottom plate modules 10 are integrally connected. A precast concrete deck is characterized in that it has a structure that forms the entire deck.

Images