KR102017684B1 - Precast Concrete Deck Module - Google Patents

Abstract

Disclosed is a haunch reinforced concrete floor plate module. The present invention provides the haunch reinforced concrete floor plate module, which allows a haunch unit in which a lower portion of both end portions of a floor plate module is extended to protrude and in which cross section thickness is increased downwards to include a wearing unit worn on an upper surface of a girder and a hanging unit extended from the wearing unit to be inclined downwards, thereby being possible to prevent generation of leakage of a filling material and allowing the floor plate module to be stably mounted on the girder because of being not moved by exceeding a permissible range because of being hung on the upper surface of the girder by the hanging unit when the floor plate module receives force from side to side after being mounted on the girder.

Description

Haunted reinforced concrete deck module {Precast Concrete Deck Module}

The present invention relates to a floor plate module, and more particularly, to a haunch reinforcement-type concrete floor plate module for securing worker stability, improving workability and reducing air.

In recent years, the bridge deck has been developed with precast concrete deck (hereinafter referred to as `` precast concrete deck '' in the background) in consideration of superior performance and constructability compared to existing structural types. It is used. The precast concrete slabs prefabricated in the factory are installed on the top of the concrete girder or steel casting mold and synthesized integrally with the shear connector to form the bridge.

Patent Application No. 2006-0063203 'Precast Concrete Deck Module with Reinforced Loop Reinforced Joint, its Joint Structure and Precast Concrete Deck with the Same' has been proposed with respect to the conventional precast concrete deck module. .

FIG. 1 is a diagram illustrating a main part of a conventional precast concrete deck board, and FIG. 2 is a diagram illustrating a joint of a conventional precast concrete deck board.

Precast concrete slab module is a precast concrete slab module 10 to be assembled and connected to each other to form a precast concrete slab, the projections 12 are formed at both ends of the bottom plate module 10, respectively, An inclined portion 13 is formed on the upper portion of the protrusion 12 by the protrusion 12 so as to form a concave portion when the neighboring bottom plate module 10 faces.

In addition, 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 inclined part 13, and the lower part 11a of the loop reinforcing bar 11 is the protrusion ( It is buried in the protrusion 12 so as to function as a reinforcing bar for reinforcing 12, and the upper portion 11b of the loop reinforcing rod 11 is exposed to the inclined portion 13.

In this case, at 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 positioned to both loop loops A concave stepped portion 14 is formed on the upper surface of the protruding portion 12 so that the reinforcing end portions of the 11 are positioned so as to overlap each other on the inclined portion 13.

In this case, reference numeral 15 shown in the drawing denotes a transverse tension member, and 20 denotes a form which blocks both sides of the filling portion.

 As shown in FIG. 2, the conventional precast concrete deck board module illustrated in FIG. 1 is mounted on the top of the bridge girder, and the bottom board modules 10 are aligned and installed, and after the formwork 20 is installed on both sides, the filling material ( It is a structure that is assembled by connecting the bottom plate modules of both sides integrally by finishing with concrete pouring).

In this case, as shown in FIG. 1, in the conventional precast concrete deck module, a protrusion 12 is formed under the inclined portion 13 where the roof reinforcing rod 11 is disposed, and the lower portion of the roof coil 11 is formed. 11a is embedded in a form coinciding with the upper surface of the projection 12. Therefore, the protruding portion 12 is a stepped portion 14 is formed so that the loop reinforcement of the neighboring bottom plate module can be disposed in the region where the loop reinforcement 12 is absent. That is, the protrusion 12 has a structure in which the protrusion in which the lower portion 11a of the loop reinforcement 11 is embedded and the stepped portion 14 are alternately formed.

Therefore, since the upper surface of the lower portion 11a of the loop reinforcement 12 is embedded to form the protrusion 12, and the stepped portion 14 is formed between the protrusions 12, it is very vulnerable to impact. Due to this, there is a high risk of damage and breakage during transportation or installation.

3 and 4 is a perspective view showing a conventional precast concrete deck module. 3 and 4 have been proposed in the Republic of Korea Patent No. 10-1207786 as a technology for the conventional precast concrete deck board module.

3 and 4, the conventional precast concrete deck board module has a haunch (31) that the lower surface of the both ends of the bottom plate module 30 protrudes convexly extending; The reinforcing portion 31 is the bottom surface and the end of the bottom plate module 30 to the side, and the bottom of the roof reinforcement (30-4) reinforcement inside the body 30-1 of the bottom plate module 30 An inclined portion 32 spaced apart from the haunch portion 31 forming a surface; The girder installation part 34 which consists of a side groove is removed by the haunting part 31 and the inclination part 32 of the part corresponding to the upper surface of the girder 40. In addition, the shear connection agent 41 is installed on the upper surface of the girder 40 corresponding to the girder installation part 34 to connect with the girder 40 when the concrete is placed. This makes it easy to move the aggregate when placing concrete, and perfect filling is possible, thereby improving the stability of the haunt by reinforcing the reinforcing bar inside the haunch 31.

5 is a cross-sectional view showing a conventional precast concrete deck module.

However, as shown in FIG. 5, when the center line A of the bottom plate module 30 and the center line B of the girder 40 are arranged to be displaced or the positional design of the girder 40 is slightly different, the pocket portion or Leakage of the filling material filled in the girder installation part 34 may occur, and the phenomenon that the end of the haunting portion 31 overlaps with the end of the girder 40 may occur, and the end of the haunting portion 31 may be damaged. There was a problem.

Therefore, an object of the present invention for solving this problem is a haunting portion formed so that the lower end of both ends of the bottom plate module is protruded to increase the cross-sectional thickness to the lower surface, and the hanger over the upper surface of the girder, and downward from the hanger When the base plate module is secured to the girder after being seated on the girder and is inclined by the left and right sides, it is caught on the upper surface of the girder by the latching portion so that it is not moved beyond the allowable range, thereby preventing the occurrence of filling material leakage. And it is also to provide a haunch reinforcement-type concrete deck module that can be stably seated on the girder module.

In order to achieve the first object of the present invention, in the bottom plate module to be installed integrally connected to the adjacent bottom plate in the upper part of the girder, the bottom plate module, the lower end of both ends are protruded to have a cross-sectional thickness A haunch portion formed to increase; It includes a reinforcing bar reinforcement in the interior of the bottom plate module and spaced apart over the haunch forming the bottom surface of the inclined portion, the haunch portion, and the slope over the top surface of the girder, so as to be inclined downward from the It provides a haunch reinforcement-type concrete floor plate module including a latching portion that extends, the portion corresponding to the upper surface of the girder is removed to form a girder installation.

In addition, the bottom plate module, the inclined portion formed on the side surface of the both ends of the bottom plate module with the haunch portion as a bottom surface; Side walls formed integrally with side cross-sections of the haunch portion on both side surfaces of the inclined portion; The girder shear connector may further include a penetrated pocket portion and a reinforcing bar arranged inside the haunch portion to promote durability of the haunch portion.

In addition, the portion other than the corresponding position of the girder is located below the upper surface of the girder, it is extended upward by the engaging portion, so that the hook portion can be partly over the upper surface of the girder.

In addition, the girder mounting portion may be formed by blocking the inclined portion.

In addition, the hook portion of the haunting portion, a pair of bottom plate module may be formed in the shape of the girder installation portion formed by a pair of hook portion is rhombus or cross shape.

In order to achieve the second object of the present invention, in the bottom plate module to be installed integrally connected to the neighboring bottom plate in the upper part of the girder, the bottom plate module, the lower end of both ends are protruded to the cross-sectional thickness A haunch portion formed to increase; It includes a reinforcing bar reinforcement in the interior of the bottom plate module and spaced apart over the haunch forming the bottom surface of the inclined portion, the haunch portion, and the slope over the top surface of the girder, so as to be inclined downward from the It provides a haunch reinforcement concrete deck plate module including an extended hook.

In addition, the bottom plate module, the inclined portion formed on the side surface of the both ends of the bottom plate module with the haunch portion as a bottom surface; Side walls formed integrally with side cross-sections of the haunch portion on both side surfaces of the inclined portion; The girder shear connector may further include a penetrated pocket portion and a reinforcing bar arranged inside the haunch portion to promote durability of the haunch portion.

In addition, the haunting portion, the portion other than the corresponding position of the girder is located below the upper surface of the girder, it is extended upward by the locking portion, the cladding portion can be all over the upper surface of the girder.

In addition, the hook portion of the haunting portion, a pair of bottom plate modules can be cut so that the shape of the girder installation portion formed by a pair of the hook portion is formed in a polygon or oval.

In order to achieve the third object, the present invention, in the bottom plate module to be installed integrally connected to the neighboring bottom plate in the upper girder, the bottom plate module, the lower end of both ends are protruded to the cross-sectional thickness A haunch portion formed to increase; A reinforcing bar reinforcement in the bottom plate module and spaced apart from the haunch portion forming the bottom surface of the inclined portion; Provides a haunch reinforcement-type concrete deck plate module including a slope having a slope formed on both sides of the bottom plate module with a haunch portion as a bottom surface and a plurality of first reinforcing flanges protruding at predetermined intervals from the slope. .

In addition, the haunting portion, the hook portion that extends over the upper surface of the girder, and the locking portion extending to be inclined downward from the latching portion, a portion corresponding to the upper surface of the girder may be removed to form a girder installation portion.

In addition, one to three loop reinforcing bars may be disposed between the first reinforcing flanges.

In addition, the first reinforcing flange may be formed, including the inclined part, corresponding to a position of an end portion of the haunting part of the haunch part.

In addition, the first reinforcing flange may be formed on the hook portion of the haunch portion, and the first reinforcing flange may be formed on the inclined portion, and the reinforcing bar may protrude between the two first reinforcing flanges.

In order to achieve the fourth object, the present invention, in the bottom plate module to be installed integrally connected to the neighboring bottom plate in the upper part of the girder, the bottom plate module, the lower end of both ends are protruded to the cross-sectional thickness A haunch portion formed to increase; Hatch-reinforced concrete comprising a loop reinforcing bar reinforcement in the bottom plate module spaced apart above the haunch forming the bottom surface of the inclined portion and a plurality of second reinforcing flanges protruding upward from the haunch at a predetermined distance. Provide the bottom plate module.

In addition, the second reinforcing flange may protrude from the haunch portion at predetermined intervals, and end portions of one to three loop bars may be formed between the second reinforcing flanges.

In addition, the haunting portion includes a hook portion that extends over the upper surface of the girder, and a locking portion extending so as to be inclined downward from the latching portion, and a part of the portion corresponding to the upper surface of the girder is removed to form a girder installation portion. The second reinforcing flange may be formed at an end portion of the tooth engaging portion.

In addition, the haunting portion, and the hook portion extending over the upper surface of the girder, and the engaging portion extending to be inclined downward from the latching portion, the second portion of the haunch portion is formed in the second reinforcing flange, the inclined In the part, a loop reinforcing bar may be disposed between the two second reinforcing flanges.

In order to achieve the fifth object of the present invention, in the bottom plate module to be installed integrally connected to the neighboring bottom plate in the upper part of the girder, the bottom plate module, the lower end of both ends are protruded to the cross-sectional thickness A haunch portion formed to increase; A reinforcing bar reinforcement in the bottom plate module and spaced apart from the haunch portion forming the bottom surface of the inclined portion; Haunch reinforcement-type concrete including an inclined portion having inclined surfaces on both sides of the bottom plate module having a haunch portion as a bottom surface, and a third reinforcing flange protruding to a height of the bottom plate module at a plurality of intervals from the haunch portion Provide the bottom plate module.

In addition, end portions of about 1 to 3 loop reinforcing bars may be formed between the third reinforcing flanges.

In addition, the haunting portion includes a hook portion that extends over the upper surface of the girder, and a locking portion extending so as to be inclined downward from the latching portion, and a part of the portion corresponding to the upper surface of the girder is removed to form a girder installation portion. The third reinforcing flange may be formed at an end portion of the tooth catching part, including an inclined part.

The haunting portion includes a hook portion extending over an upper surface of the girder, and a hook portion extending downwardly inclined from the hook portion, and two third reinforcing flanges are formed on the hook portion of the haunch portion. In the part, a loop reinforcing bar may be disposed between the two third reinforcing flanges.

According to the haunch reinforcement-type concrete slab module of the present invention described above, when the slab module receives a force from side to side after being seated on the girder, it is caught on the upper surface of the girder by the locking portion, so it does not move beyond the allowable range. It is possible to prevent the occurrence of filler leakage, and also has the effect that the bottom plate module can be stably seated on the girder.

In addition, when the concrete is placed in the filling space of the girder installation by the reinforcing flange of the thin concrete slab, it has the effect of increasing the adhesion strength by increasing the contact surface, and also the external impact such as unbalance during the demoulding or mounting of the formwork. It is effective to make up for the weak points.

1 is a main configuration of the conventional haunch reinforcement concrete deck module.
2 is a configuration diagram illustrating a joint of a conventional precast concrete bottom plate.
3 and 4 is a perspective view showing a conventional haunch reinforcement concrete deck plate module.
5 is a cross-sectional view showing a conventional haunch reinforcement concrete deck plate module.
6 is a perspective view showing a haunch reinforcement-type concrete deck module according to the first embodiment of the present invention disposed on the upper side of the girder, Figure 7 is a plan view of Figure 6, Figure 8 (a) is a 8 (b) is a cross-sectional view taken along AA of FIG. 8 (a), and FIG. 8 (c) is a cross-sectional view taken along line BB of FIG. 8 (a).
9 and 10 are plan views showing a modification to the first embodiment of the haunch reinforcement concrete deck module according to the present invention.
11 is a perspective view showing a haunch reinforcement type concrete deck module according to a second embodiment of the present invention disposed on the upper side of the girder, Figure 12 is a plan view of Figure 11, Figure 13 (a) is a 13 (b) is a sectional view taken along line AA of FIG. 13 (a), and FIG. 13 (c) is a sectional view taken along line BB of FIG. 13 (a).
14 and 15 are plan views showing a modification to the second embodiment of the haunch reinforcement concrete deck module according to the present invention.
FIG. 16 is a perspective view showing a haunch reinforcement-type concrete deck module according to a third embodiment of the present invention disposed on an upper side of a girder, and FIG. 17 is a view where a pair of bottom plate modules are in contact with FIG. 16. One cross section.
FIG. 18 is a perspective view illustrating the haunch reinforcement-type concrete baseplate module to which the embodiment of FIG. 16 is applied to the first embodiment.
19 is a perspective view showing the appearance of the haunch reinforcement-type concrete deck module applied to the embodiment of FIG.
20 is a perspective view showing the haunch reinforcement-type concrete deck module according to the fourth embodiment of the present invention disposed on the upper side of the girder, Figure 21 is a view showing a pair of bottom plate modules in contact with FIG. One cross section.
FIG. 22 is a perspective view illustrating a haunch reinforcement-type concrete baseplate module to which the embodiment of FIG. 20 is applied to the first embodiment.
FIG. 23 is a perspective view illustrating a haunch reinforcement-type concrete slab module to which the embodiment of FIG. 20 is applied to the second embodiment.
24 is a perspective view showing a haunch reinforcement-type concrete deck module according to a fifth embodiment of the present invention disposed on the upper side of the girder, Figure 25 is a view showing a pair of bottom plate modules in contact with FIG. One cross section.
FIG. 26 is a perspective view illustrating a haunch reinforcement-type concrete baseplate module to which the embodiment of FIG. 24 is applied to the first embodiment.
FIG. 27 is a perspective view illustrating a haunch reinforcement-type concrete baseplate module to which the embodiment of FIG. 24 is applied to the second embodiment.

In order to fully understand the present invention, preferred embodiments of the present invention will be described with reference to the accompanying drawings. Embodiment of the present invention may be modified in various forms, the scope of the invention should not be construed as limited to the embodiments described in detail below. This embodiment is provided to more completely explain the present invention to those skilled in the art. Therefore, the shape of the elements in the drawings and the like may be exaggerated to emphasize a more clear description. It should be noted that the same members in each drawing are sometimes shown with the same reference numerals. In addition, detailed descriptions of well-known functions and configurations that are determined to unnecessarily obscure the subject matter of the present invention are omitted.

First embodiment

6 is a perspective view showing a haunch reinforcement-type concrete deck module according to the first embodiment of the present invention disposed on the upper side of the girder, Figure 7 is a plan view of Figure 6, Figure 8 (a) is a 8 (b) is a cross-sectional view taken along line AA of FIG. 8 (a), and FIG. 8 (c) is a cross-sectional view taken along line BB of FIG. 8 (a). Hereinafter, the haunch-reinforced concrete deck plate module 100 according to the first embodiment of the present invention will be described with reference to FIGS. 6 to 8.

First, the bottom plate module 100 according to the present embodiment has a lower portion of both ends (up and down directions in FIG. 6) extending and protruding so that a cross section thickness is increased to a lower surface thereof. It includes a loop reinforcement 104 is reinforcement in the interior and spaced apart over the haunche 110 forming the bottom surface of the half inclined portion 120.

In this case, the bottom plate module 100 includes an inclined portion 120 having an inclined surface on both sides of the bottom plate module 100 using the haunch portion 110 as a bottom surface; Sidewall portions 130 formed integrally with side cross-sections of the haunch portion 110 on both side surfaces of the inclined portion 120; Reinforcing bars 111, not shown in the interior of the haunting unit 110 to enhance the durability of the pocket portion 102 and the haunch 110 through which the shear connector 201 of the girder 200 is fitted. ) May be further included.

The haunch reinforcement-type concrete slab module according to the present embodiment configured as described above is mounted on the girder 200 in a plurality, and the haunches 110 end and sidewall portions of the neighboring slab modules 100 are provided. 130 are matched to each other. In addition, the inclined portion 120 is blocked by both side wall portions 130, the filling space is formed by the inclined portion 120 of the plurality of bottom plate module 100, by filling the filling material in the filling space to finish It can be connected in one piece. That is, the concrete floor plate 100 when the side wall portion 130 is integrally formed on the side surface of the inclined portion 120 to install the bottom plate module 100 on the girder 200 to perform a joint construction integrally There is no need to install a separate formwork.

On the other hand, as a feature of the present embodiment, the haunting unit 110, a part of the portion corresponding to the upper surface of the girder 200 is removed to form a girder mounting portion 140. In detail, the haunting unit 110 protrudes downward from both ends of the bottom plate module 100, and is formed to partially cover the upper surface of the girder 200, and a part of the hauncher unit 201 may be removed. It is characterized in that the girder installation portion 140 is formed.

Blocking out the girder installation unit 140 prevents interference with the haunch unit 110 when the bottom plate module 100 is installed in the girder 200, and enables equally spaced arrangement of the shear connector. Alternatively, the shear connector 201 may be separately installed on the upper surface of the girder 200 at the position corresponding to the girder installation unit 140 to connect the loop reinforcement 104 and the shear connector 201 and then cast concrete. have.

At this time, the haunting unit 110 includes a hook 113 extending over the upper surface of the girder 200, and a hook 112 extending to be inclined downward from the hook 113. That is, the haunting portion 110 is located below the upper surface of the girder 200, the portion other than the corresponding position of the girder 200, is extended upward by the engaging portion 112, the hook portion 113 is a girder ( It is the structure which a part hangs on the upper surface of 200). That is, the haunting unit 110 protruding from the lower end of both ends of the bottom plate module 100 is formed in a form surrounding the upper surface of the girder 200 leaving some space.

In this case, when the bottom plate module 100 is seated on the girder 200 and receives a force from side to side, it is caught on the upper surface of the girder 200 by the locking portion 112 and thus does not move beyond the allowable range. Therefore, it is possible to prevent the occurrence of the filler material introduced as a problem in the background art, and also has the effect that the bottom plate module 100 can be stably seated on the girder 200. In this case, the spacer 300 (see FIG. 8) may be intermittently inserted and installed between the bottom surface of the bottom plate module 100 and the top surface of the girder 200.

The girder installation portion 140 is a portion without the protruding haunch 110, the spacer 300 is placed on the girder 200 and the hook portion 113 is raised on the spacer 300 By the spacer 300, the bottom plate module 100 is leveled. Thereafter, a bedding layer (not shown) is formed in the space between the girder 200 and the bottom plate module 100 generated by the spacer 300, and the bedding layer is finished by taping the concrete after the taping work. Can be.

On the other hand, when the haunch reinforcement concrete floor plate module 100 is installed on the top of the girder 200, it is installed by inserting the spacer 300 for horizontal balance. Conventional spacers, using a simple concrete block, when the bottom plate module 100 is placed on the top of the girder 200, when a fine movement is required to occur. It is preferable to align with fine movement by pushing or pulling in the horizontal direction rather than lifting it up and down again every time. At this time, in this embodiment, the floor plate module 100 is moved so much that in order to prevent the leakage of the filling material when filling the filling material in the present embodiment, the haunting portion 110 partially covers the upper surface of the girder 200. It will be able to prevent the sudden movement to the wrapping shape.

On the other hand, reference numeral 105 in the drawing is a cast iron of the bottom plate.

9 and 10 are plan views showing a modification to the first embodiment of the haunch reinforcement concrete deck module according to the present invention.

In the modified example of the first embodiment according to the installation location and the installation position of the shear connector 201 installed in the girder 200 by cutting the cross section 113 of the haunting unit 110 in various shapes to install a variety of girders Since the part 140 is formed, the bottom plate module 100 may be installed in the girder 200 in a flexible manner.

In addition, in the modified example of the present embodiment, unlike the modified example of the second embodiment to be described later, the inclination part 120 may be formed in the girder installation part 140 by being blocked out.

In detail, as shown in FIG. 9, a pair of bottom plate modules 100 are in contact with the top surface of the girder 200 to form a shape of the girder installation part 140 formed by a pair of hook portions 113 in a rhombus shape. Can be.

In addition, as shown in Figure 10, a pair of bottom plate module 100 is in contact with the upper surface of the girder 200, the shape of the girder installation portion 140 formed by a pair of hook portion 113 to be formed in a cross shape. Can be.

Second embodiment

11 is a perspective view showing a haunch reinforcement type concrete deck module according to a second embodiment of the present invention disposed on the upper side of the girder, Figure 12 is a plan view of Figure 11, Figure 13 (a) is a 13 (b) is a sectional view taken along line AA of FIG. 13 (a), and FIG. 13 (c) is a sectional view taken along line BB of FIG. 13 (a).

The bottom plate module 100 according to the present embodiment has a haunch portion 110 formed so that the lower end portions of both ends (up and down directions in FIG. 11) are protruded to increase the cross-sectional thickness toward the lower surface similarly to the first embodiment. And a loop reinforcement 104 that is disposed inside the bottom plate module 100 and is spaced apart from and protrudes over the haunch unit 110 forming the bottom surface of the half inclined portion 120.

In addition, the bottom plate module 100 includes an inclined portion 120 having an inclined surface on both sides of the bottom plate module 100 with the haunch 110 as a bottom surface; Sidewall portions 130 formed integrally with side cross-sections of the haunch portion 110 on both side surfaces of the inclined portion 120; Reinforcing bars 111, not shown in the interior of the haunting unit 110 to enhance the durability of the pocket portion 102 and the haunch 110 through which the shear connector 201 of the girder 200 is fitted. ) May be further included.

On the other hand, as a feature of the present embodiment, the haunting unit 110, a part of the portion corresponding to the upper surface of the girder 200 is removed to form a girder mounting portion 140. In detail, the haunting unit 110 protrudes downward from both ends of the bottom plate module 100, and is formed to cover the entire surface of the girder 200. Unlike the first embodiment, the shear connector 201 is provided. The girder installation part 140, which is a space that can be located, is not formed.

At this time, the haunting unit 110 includes a hook 113 extending over the upper surface of the girder 200, and a hook 112 extending to be inclined downward from the hook 113. That is, the haunting portion 110 is located below the upper surface of the girder 200, the portion other than the corresponding position of the girder 200, is extended upward by the engaging portion 112, the hook portion 113 is a girder ( It is the structure which covers all the upper surfaces of 200). That is, the haunting unit 110 protruding from the lower end of both ends of the bottom plate module 100 is formed in a form surrounding the entire upper surface of the girder 200, unlike the first embodiment.

In this case, when the bottom plate module 100 is seated on the girder 200 and receives a force from side to side, it is caught on the upper surface of the girder 200 by the locking portion 112 and thus does not move beyond the allowable range. Therefore, it is possible to prevent the occurrence of the filler material introduced as a problem in the background art, and also has the effect that the bottom plate module 100 can be stably seated on the girder 200. In this case, the spacer 300 (see FIG. 13) may be intermittently inserted and installed between the bottom surface of the bottom plate module 100 and the top surface of the girder 200.

On the other hand, when the haunch reinforcement concrete floor plate module 100 is installed on top of the girder 200, it is installed by inserting the spacer 300 for horizontal balance, the conventional spacer, using a simple concrete block As such, when the bottom plate module 100 is placed on the top of the girder 200 and aligned, a micromovement is required. It is preferable to align with fine movement by pushing or pulling in the horizontal direction rather than lifting it up and down again every time. At this time, in this embodiment, the floor plate module 100 is moved too much to prevent the problem of leakage of the filling material when filling the filling material in the present embodiment, in this embodiment, the haunting portion 110 covers the entire upper surface of the girder 200. It will be able to prevent the sudden movement to the wrapping shape.

14 and 15 are plan views showing a modification to the second embodiment of the haunch reinforcement concrete deck module according to the present invention.

In the modified example of the second embodiment, according to the installation location and installation location of the shear connector 201 to be installed on the girder 200, the cutting portion 113 of the haunting portion 110 is cut in various shapes to limit the size of various shapes. Since the girder mounting portion 140 is formed, the bottom plate module 100 may be installed in the girder 200 in a fluid manner.

In addition, in the modified example of the present embodiment, unlike the modified example of the first embodiment, the inclined portion 120 is formed at one side of the girder installation portion 140 and has a limited size that may include the shear connector 201. .

In detail, as illustrated in FIG. 14, a pair of bottom plate modules 100 are in contact with the top surface of the girder 200 to form a girder installation unit 140 formed by a pair of hook portions 113. It can be formed as.

In addition, as shown in Figure 15, a pair of bottom plate module 100 is in contact with the upper surface of the girder 200, the shape of the girder installation portion 140 formed by a pair of hook portion 113 is formed in an oval or circular shape Can be.

Third embodiment

FIG. 16 is a perspective view showing a haunch reinforcement-type concrete deck module according to a third embodiment of the present invention disposed on an upper side of a girder, and FIG. 17 is a view where a pair of bottom plate modules are in contact with FIG. 16. One cross section. Hereinafter, the haunch-reinforced concrete deck plate module 100 according to the third embodiment of the present invention will be described with reference to FIGS. 16 and 17.

For the bottom plate module 100 according to the present embodiment, the main components and reference numerals disclosed in the first and second embodiments will be shared, and descriptions of the overlapping components will be omitted.

In addition, in the present embodiment, as an example, the end of the haunting unit 110 described in the background art overlaps with the end of the girder 200 to solve the problem that the end of the haunting unit 110 may be damaged. There is a feature that can increase the durability of the tooth (110).

In detail, as shown in FIGS. 16 and 17, the bottom plate module 100 according to the present exemplary embodiment has a lower portion of both ends (up and down directions in FIG. 16) extending and protruding so that the cross section thickness is increased to a lower surface thereof. And a loop reinforcement 104 which is disposed inside the bottom plate module 100 and is spaced apart from and protrudes over the haunches 110 forming the bottom surface of the half inclined portion 120. The first reinforcing flange protruding a plurality of inclined portion 120 and a predetermined interval from the inclined portion 120 and the inclined portion formed on the side surface of both ends of the bottom plate module 100 with the haunch 110 as a bottom surface ( 150). That is, the first reinforcing flange 150 protrudes from the inclined portion 120 at predetermined intervals, and one to three loop reinforcement 104 are formed between the first reinforcing flanges 150. do.

The first reinforcing flange 150 is a thin slab of concrete slab, it is effective to increase the adhesion strength by increasing the contact surface when placing concrete in the filling space of the girder installation portion 140, and also formwork There is an effect that can be compensated for the disadvantages vulnerable to external shocks such as unbalance during demolding or mounting.

FIG. 18 is a perspective view illustrating the haunch reinforcement-type concrete baseplate module to which the embodiment of FIG. 16 is applied to the first embodiment.

As shown in FIG. 18, a plurality of first reinforcing flanges 150 protrude from the inclined portion 120, and in particular, the inclined portion 120 corresponds to the position of the end portion of the hook portion 113 of the haunch portion 110. It can be seen that the first reinforcing flange 150 is formed, including 120.

19 is a perspective view showing the appearance of the haunch reinforcement-type concrete deck module applied to the embodiment of FIG.

As shown in FIG. 19, a plurality of first reinforcing flanges 150 protrude from the inclined portion 120. In particular, the inclined portion 113 of the haunch portion 110 includes two inclined portions 120. The first reinforcing flange 150 is formed, it can be seen that the inclined portion 120 is a loop reinforcement 104 is protruded between the two first reinforcing flange 150 is located.

Fourth embodiment

20 is a perspective view showing the haunch reinforcement-type concrete deck module according to the fourth embodiment of the present invention disposed on the upper side of the girder, Figure 21 is a view showing a pair of bottom plate modules in contact with FIG. One cross section. Hereinafter, the haunch-reinforced concrete deck plate module 100 according to the fourth embodiment of the present invention will be described with reference to FIGS. 20 and 21.

For the bottom plate module 100 according to the present embodiment, the main components and reference numerals disclosed in the first and second embodiments will be shared, and descriptions of the overlapping components will be omitted.

In addition, in the present embodiment, as an example, the end of the haunting unit 110 described in the background art overlaps with the end of the girder 200 to solve the problem that the end of the haunting unit 110 may be damaged. There is a feature that can increase the durability of the tooth (110).

In detail, as shown in FIGS. 20 and 21, the bottom plate module 100 according to the present embodiment has a lower portion of both ends (up and down directions in FIG. 16) extending and protruding so that a haunch portion is formed so that the cross-sectional thickness is increased to the lower surface. 110; Reinforced inside the bottom plate module 100 and spaced apart from the protruded loop reinforcement 104 and the haunting portion 110 forming a bottom surface of the inclined portion 120 at an upper side with a predetermined distance from the haunting portion 110. The second reinforcement flange 116 protrudes into a plurality. That is, the second reinforcing flange 116 protrudes from the haunch unit 110 at predetermined intervals, and one to three end portions of the loop reinforcement 104 are positioned between the second reinforcing flanges 116. It is formed.

The second reinforcing flange 116 is a thin slab of concrete slab, it is effective to increase the adhesive strength by increasing the contact surface when placing concrete in the filling space of the girder installation portion 140, and also formwork There is an effect that can be compensated for the disadvantages vulnerable to external shocks such as unbalance during demolding or mounting.

FIG. 22 is a perspective view illustrating a haunch reinforcement-type concrete baseplate module to which the embodiment of FIG. 20 is applied to the first embodiment.

As illustrated in FIG. 22, a plurality of second reinforcing flanges 116 protrude from the haunting part 110, and in particular, a second reinforcing flange 116 is formed at an end portion of the hooking portion 113 of the haunting part 110. It can be seen that is formed.

FIG. 23 is a perspective view illustrating a haunch reinforcement-type concrete slab module to which the embodiment of FIG. 20 is applied to the second embodiment.

As shown in FIG. 23, a plurality of second reinforcing flanges 116 protrude from the haunting unit 110, and in particular, two second reinforcing flanges 116 of the hooking unit 113 of the haunting unit 110. Is formed, the inclined portion 120 can be seen that the loop reinforcement 104 is projected between the two second reinforcing flange 116 is located.

Fifth Embodiment

24 is a perspective view showing a haunch reinforcement-type concrete deck module according to a fifth embodiment of the present invention disposed on the upper side of the girder, Figure 25 is a view showing a pair of bottom plate modules in contact with FIG. One cross section. Hereinafter, the haunch-reinforced concrete deck plate module 100 according to the fifth embodiment of the present invention will be described with reference to FIGS. 24 and 25.

For the bottom plate module 100 according to the present embodiment, the main components and reference numerals disclosed in the first and second embodiments will be shared, and descriptions of the overlapping components will be omitted.

In addition, in the present embodiment, as an example, the end of the haunting unit 110 described in the background art overlaps with the end of the girder 200 to solve the problem that the end of the haunting unit 110 may be damaged. There is a feature that can increase the durability of the tooth (110).

In detail, as shown in FIGS. 24 and 25, the bottom plate module 100 according to the present exemplary embodiment has a lower portion of both ends (up and down directions of FIG. 16) extending and protruding so that the cross section thickness is increased to the lower surface thereof. ; A loop reinforcement 104 that is disposed inside the bottom plate module 100 and is spaced apart from and protrudes over the haunches 110 forming the bottom surface of the inclined portion 120; The inclined portion 120 is formed on the side surfaces of both ends of the bottom plate module 100 with the haunch portion 110 as the bottom surface, and the plurality of bottom plate modules 100 at predetermined intervals from the haunting portion 110. It includes a third reinforcing flange 160 protruding up to a height. That is, the third reinforcement flange 160 protrudes to the height of the bottom plate module 100 at a predetermined interval in the haunch unit 110, and between the third reinforcement flange 160. The end of the loop reinforcement 104 of about one to three is formed is located.

The third reinforcing flange 160 is a thin slab of concrete slab, it is effective to increase the adhesive strength by increasing the contact surface when placing concrete in the filling space of the girder installation portion 140, and also formwork There is an effect that can be compensated for the disadvantages vulnerable to external shocks such as unbalance during demolding or mounting.

FIG. 26 is a perspective view illustrating a haunch reinforcement-type concrete baseplate module to which the embodiment of FIG. 24 is applied to the first embodiment.

As illustrated in FIG. 26, the plurality of third reinforcement flanges 160 protrude to the height of the bottom plate module 100, and in particular, the hook portion 113 of the haunting unit 110 is formed on the haunting unit 110. It can be seen that the third reinforcement flange 160 is formed to the height of the bottom plate module 100 including the inclined portion 120 at the end.

FIG. 27 is a perspective view illustrating a haunch reinforcement-type concrete baseplate module to which the embodiment of FIG. 24 is applied to the second embodiment.

As illustrated in FIG. 27, a plurality of third reinforcement flanges 160 protrude to the height of the bottom plate module 100, and in particular, the hook portion 113 of the haunch portion 110 is disposed on the haunch portion 110. Two third reinforcing flanges 160 are formed on the inclined portion 120, and the loop reinforcement 104 is protruded between the two first reinforcing flanges 150 on the inclined portion 120. can confirm.

Embodiment of the haunch reinforcement concrete deck module of the present invention described above is merely exemplary, and those skilled in the art to which the present invention pertains various modifications and equivalent other embodiments are possible. You can see the point well. Therefore, it will be understood that the present invention is not limited to the forms mentioned in the above detailed description. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims. It is also to be understood that the present invention includes all modifications, equivalents, and substitutes within the spirit and scope of the invention as defined by the appended claims.

100: bottom plate module 102: pocket portion
104: loop reinforcement 110: haunting unit
111: reinforcing bar 112: engaging part
113: hanger 116: second reinforcing flange
120: inclined portion 130: side wall portion
140: girder installation portion 150: first reinforcing flange
160: third reinforcing flange 200: girder
201: shear connector 300: spacer

Claims (22)

In the bottom plate module 100 to be installed integrally connected to the neighboring bottom plate in the upper girder,
The bottom plate module 100, the haunting portion 110 protruding from the lower end of both ends; And a loop reinforcement 104 which is disposed inside the bottom plate module 100 and is spaced apart from and protrudes over the haunch 110 forming the bottom surface of the inclined portion 120.
The haunting unit 110 includes a latching unit 113 that extends over an upper surface of the girder 200, and a latching unit 112 extending to be inclined downward from the latching unit 113. A part of the portion corresponding to the upper surface is removed to form the girder installation part 140,
The haunting portion 110 is a portion other than the corresponding position of the girder 200 is located below the upper surface of the girder 200, and is extended upward by the locking portion 112, the hook portion 113 is girder 200 Part over the top of),
The girder installation unit 140 is formed by blocking the inclined portion 120,
Filler is poured into the girder installation unit 140 so that the girder 200 and the bottom plate module 100 are fixed to each other, and the longitudinal direction of the bottom plate module 100 is parallel to each other in the separation direction of the girder 200. Will be placed,
The locking portion 112 is disposed in a plurality of spaced apart along the longitudinal direction of the base plate module 100 so as to face the girder installation unit 140,
The bottom plate module 100 has a play in the longitudinal direction of the bottom plate module 100 with respect to the girder 200 through the inclined engaging portion 112,
With the inclined surface 120 is formed on the side surface of both ends of the bottom plate module 100 with the haunch 110 as a bottom surface, a plurality of bottom plate modules at a predetermined interval from the haunch 110 And a third reinforcing flange 160 protruding up to a height of 100, and a pair of opposing third reinforcing flanges 160 is blocked out to form a coupling portion of the girder installation unit 140. Haunch reinforcement concrete deck module. The method according to claim 1,
The bottom plate module 100,
An inclined portion 120 having an inclined surface on both sides of the bottom plate module 100 using the haunch portion 110 as a bottom surface;
Sidewall portions 130 formed integrally with side cross-sections of the haunch portion 110 on both side surfaces of the inclined portion 120;
The pocket portion 102 penetrated so that the shear connector 201 of the girder 200 is fitted thereto.
Haunch reinforcement concrete floor plate module further comprises a reinforcement reinforcement in the interior of the haunch unit 110 to promote the durability of the haunch unit (110). delete delete The method according to claim 1,
The hook portion 113 of the haunch unit 110,
Haunted reinforcement-type concrete floor plate module is cut so that the shape of the girder installation portion 140 is formed by a pair of the bottom plate module 100 in contact with the pair of the hook portion 113 is formed in a rhombus or cross shape. delete delete delete The method according to claim 1,
The hook portion 113 of the haunch unit 110,
Haunchy reinforcement-type concrete floorboard, characterized in that the pair of bottom plate module 100 is in contact with each other so that the shape of the girder installation portion 140 formed by a pair of hook portion 113 is formed in a polygonal or oval shape. module. delete delete delete delete delete delete delete delete delete delete The method according to claim 1,
Haunch reinforcement-type concrete slab module is formed between the end of one to three loop reinforcement 104 is formed between the third reinforcing flange 160. delete delete

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