KR200450841Y1 - Joint structure of precast box culvert unit with anti-sedimentation configuration by inserting precast concrete box culvert unit on both sides of connecting anchor bar - Google Patents

Abstract

The present invention relates to a joint structure of a new type of precast box culvert unit, which can prevent the breakage at the joint of the precast box culvert unit due to uneven settlement by increasing the resistance at the joint between the precast box culvert units. .
In the present invention, a plurality of the joining structure of the culvert unit 10 which constitutes a precast concrete box culvert by being joined to each other in the longitudinal direction, the filling portion 11 is formed on the joint surface of the culvert units on both sides; The filling portion 11 is formed with a concave insertion portion 30 having a deeper reverse tapered shape; Both ends of the connecting anchor bar 20 are inserted into the insertion portions 30 of the culvert units 10, respectively, and the connecting anchor bars 20 are connected to each other with the joining surfaces of the two culvert units 10 facing each other. ) Is disposed across both culvert units 10; Filling material 13 is injected into the filling portion 11 and the inserting portion 30 while the bonding surfaces of the two culvert units 10 face each other, are filled and cured, and the culvert unit 10 is continuously integrated and integrally coupled. A joint structure of a precast concrete box culvert unit is provided.

Description

Connecting Structure of Precast Box Culvert Units Using Connecting Anchor Bars}

The present invention relates to a joining structure of a precast concrete box culvert unit, specifically, a connection anchor bar having an anchor function at a concave insertion portion formed in a joint surface of a precast box culvert unit facing each other, both sides of a precast concrete box culvert By inserting and placing the unit across the unit, it is fixed to the filling material, and then jointly coupled to both precast concrete box culvert units, thereby increasing the resistance at the joint between the precast concrete box culvert units and precast due to uneven settlement. A joint structure of a new type precast concrete box culvert unit can be prevented from breaking at a concrete box culvert unit junction.

Precast Concrete Box Culvert (hereinafter abbreviated as "Box Culvert") is a plurality of precast concrete culvert units (hereinafter, " The culvert unit) is constructed by assembling sequentially in the longitudinal direction. At this time, through holes are formed in the corners of the culvert unit, the tension member passes through the plural culvert units in the assembly direction, and is then tension-fixed, thereby applying a pressing force in the longitudinal direction to the plural culvert units sequentially arranged. In addition, the joint surface where the culvert units face each other forms a recess at the edge of the culvert unit, and when the culvert units face each other, a space such as a non-condensed mortar is filled in the space formed by the recesses of both culvert units. The integral bonding and watertightness at the joint of the culvert unit are achieved.

However, the introduction of tension in the longitudinal direction by the above-mentioned tension material and the watertight joint using the filling material at the joint portion, which are employed in the joint structure of the conventional culvert unit, do not exhibit sufficient shear resistance, so that the unevenness of the ground or the high load When loading or the like occurs, there is a high possibility that breakage of the culvert, such as a step at the junction of the culvert unit, that is, a height difference between both culvert units or a gap between the joint surfaces of the culvert unit, occurs due to the action of the shear force.

The present invention was developed to solve the problems of the prior art as described above, specifically in the construction of a culvert by joining a plurality of culvert units made of precast concrete, high shear resistance and axial direction at the junction between the culvert units It is an object of the present invention to have a tensile resistance so that breakage does not occur at the joint portion of the culvert unit even when the ground is uneven or loaded with a high load.

In order to achieve the above object, in the present invention, it is made of a precast member to have a box-shaped cross-section consisting of the upper plate, the lower plate and the vertical wall portion, a plurality of pieces are joined to each other in the longitudinal direction to form a precast concrete box culvert As the joining structure of the precast concrete box culvert unit to be formed, the upper plate, the lower plate and the vertical wall portion in the joint surface of the precast concrete box culvert unit on both sides is formed with a concave filling portion filled with filler; The filling part formed on the joining surface of the precast concrete box culvert unit is formed by digging deeper than the filling part in the longitudinal direction of the precast concrete box culvert unit, and the inverse taper is increased in size from the joining surface in the longitudinal direction of the culvert unit. A concave insertion portion is formed; The joint surface of the precast concrete box culvert unit, which is formed of a rigid body having a shape extending in the longitudinal direction of the precast concrete box culvert unit, and the connecting anchor bar having an anchor protrusion projecting in the transverse direction at each end thereof, facing each other Both ends are respectively inserted into and disposed in respective insertion portions formed in the connecting portions so that the connecting anchor bars are disposed between the two precast concrete box culvert units with the joint surfaces of the two precast concrete box culvert units facing each other; Joining surfaces of both precast concrete box culvert units face each other, and fillers are injected and filled into the filling portion and the insert portion with both ends of the connecting anchor bar disposed in the insert portions of the both precast concrete box culvert units. By hardening, the joint anchor bar exerting shear resistance and bending tensile resistance is arranged on the joint surface of both precast box culvert units, and the two precast concrete box culvert units are continuously integrated together in a state where the joint is tight. A joint structure of a precast concrete box culvert unit is provided.

In the present invention, the connecting anchor bar has a rod member shape consisting of a rigid body of a rectangular parallelepiped, and may have a configuration in which anchor rods are formed by exposing the ends of the rods at both ends in the transverse direction to expose the ends thereof. have.

In addition, in the present invention, the connecting anchor bar, after arranging a plurality of longitudinal rods between the interval-maintaining steel rods arranged in the transverse direction, the end protrudes beyond the transverse width of the longitudinal rods anchoring projections In order to form a plurality of transverse steel rods for anchoring projections respectively disposed on the upper and lower surfaces of the longitudinal steel bar may have a configuration in which each steel bar is integrally coupled.

In addition, in the present invention, the connecting anchor bar has a rod member shape consisting of a rigid body having a rectangular parallelepiped shape, and an extension portion having a larger width at both ends is formed, and the side portion is wider than the width of the rod member at the extension portion. Protruding portion may have a configuration to form an anchor projection.

According to the present invention, the connecting anchor bar is disposed in the insertion portion of both culvert units and embedded in the filling material in a state spanning both culvert units, thereby exhibiting a large shear resistance at the joints of the culvert units. Therefore, even if a shearing force acting to shift both culvert units up and down due to ground erosion and the like occurs, in the present invention, the connecting anchor bar is present at the joints of the culvert units across both culvert units, thereby resisting shear force. Even if settlement or the like occurs, the effect of preventing shear failure from occurring at the junction of the culvert unit is exerted.

In addition, in the present invention, the connection anchor bar is embedded in the filling material and functions as an anchor, thereby exhibiting high pull resistance, and accordingly, high pull resistance and other flexural tensile resistance are exerted by the connection anchor bar. Even if the bending tension that causes the gap between the two culvert units to open at the joint is applied, it is possible to prevent breakage such as cracking at the joint.

Furthermore, in the present invention, the insertion portion in which the connection anchor bar is disposed has a reverse tapered shape, and thus the filler filled and cured in the insertion portion generates pull-out resistance according to the anchoring action on the culvert unit as such. The flexural tensile strength is very large with respect to the flexural tensile action, and the excellent flexural tensile resistance is exerted.

1 is a schematic exploded perspective view showing a state that the culvert unit is bonded according to the bonding structure according to an embodiment of the present invention.
2 is a schematic cross-sectional view taken along line AA of FIG. 1 in a state in which the culvert unit is joined according to the present invention.
3 is a schematic cross-sectional view taken along line BB of FIG. 1 in a state in which the culvert unit is joined according to the present invention.
4 is a schematic cross-sectional view taken along the line CC of FIG. 1 in a state where the culvert unit is joined according to the present invention.
Figure 5 is a schematic exploded perspective view showing a state that the culvert unit is bonded according to the bonding structure according to another embodiment of the present invention.
FIG. 6 is a schematic cross-sectional view taken along the line DD of FIG. 5 with the culvert unit joined according to the embodiment shown in FIG. 5.
FIG. 7 is a schematic cross-sectional view taken along line EE of FIG. 5 with the culvert unit joined according to the embodiment shown in FIG. 5.
8 is a schematic exploded perspective view showing a state in which the culvert unit is bonded according to the bonding structure according to another embodiment of the present invention.
9 is a schematic cross-sectional view taken along the line FF of FIG. 8 with the culvert unit joined according to the embodiment shown in FIG. 8.
10 is a schematic cross-sectional view taken along the line GG of FIG. 8 with the culvert unit joined in accordance with the embodiment shown in FIG. 8.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention will be described. Although the present invention has been described with reference to the embodiments shown in the drawings, it is described as one embodiment, whereby the technical spirit of the present invention and its core configuration and operation are not limited.

1 is a schematic exploded perspective view showing a state in which the culvert unit 10 is bonded according to the bonding structure according to an embodiment of the present invention, Figures 2 to 4 are respectively shown in the culvert unit 10 according to the present invention Is a schematic cross sectional view along line AA, line BB and line CC of FIG.

As shown in the figure, a culvert unit 10 having a box-shaped cross section consisting of a top plate, a bottom plate and a vertical wall portion and made of a precast member in advance in a factory in order to have a predetermined length in the longitudinal direction, the longitudinal direction of the box culvert The box culverts are constructed by successively being placed and joined together. Concave filling portions 11 are formed in the upper plate, the lower plate, and the vertical wall portion of the box-shaped joining surfaces of the culvert units 10 to which the culvert units 10 are joined to face each other. Therefore, as shown in FIG. 2, a space is formed by the backing material 12 and the filling part 11 in a state in which bonding surfaces of the culvert unit 10 face each other and are joined to each other, and a filling material such as non-condensed mortar is formed in the space. (13) is filled. Through-holes 14 are formed in the corner haunting portion at the joint surface of the culvert unit 10 in the longitudinal direction of the culvert unit, and the culvert unit 10 is continuously arranged in the longitudinal direction in the through hole 14. As the tension member 15 is disposed and tensioned, tension force is applied in the longitudinal direction with respect to the culvert units 10 continuously joined and disposed.

In the present invention, by using the connecting anchor bar 20 in joining the culvert units 10 facing each other at the joint surface, high shear resistance and bending resistance at the joint of the culvert unit 10 are exhibited.

Specifically, as shown in FIGS. 1, 3, and 4, each of the culvert units 10 is located at the same position with respect to both culvert units 10 in the filling portions 11 of the culvert units 10 facing each other. The insertion part 30 is formed by digging deeper than the filling part 11 in the longitudinal direction of the culvert unit 10 in the joint surface of the. That is, the filling portion 11 is formed with an insertion portion 30 that is deeper concave in the longitudinal direction of the culvert unit 10. As shown in FIG. 4, the inserting portion 30 has an inverse tapered shape in which the size thereof becomes larger from the joining surface toward the longitudinal direction of the culvert unit 10. That is, the width | variety of the insertion part 30 in the transverse direction (orthogonal direction of the longitudinal direction of a culvert unit) formed in the joining surface is a form narrower than the transverse width in the culvert unit 10 inside. Thus, since the insert 30 has a reverse tapered shape, when the filler 13 is later filled into the insert 30, the wedge action is exerted by the hardened filler 13, and thus, The effect that the tensile strength of becomes larger becomes exerted. As shown in the figure, the insert 10 may be formed in a plurality of upper and lower plates of the culvert unit 10, respectively. In addition, the insertion portion 10 may be formed in the haunting portion through which the tension material passes through the bonding surface of the culvert unit 10. In this case, the tension member is disposed in the longitudinal direction of the culvert unit 10 through the connection anchor bar 20 to be described later.

On the other hand, in the present invention, the insertion portion 30 is made of a rigid body having a shape extending in the longitudinal direction of the culvert unit 10, both ends of the connecting anchor bar is formed with an anchor protrusion protruding in the transverse direction ( 20) is inserted and positioned. That is, when the culvert unit 10 comes in contact with each other, the connecting anchor bar 20 has one end in the insertion part 30 of the culvert unit 10 that is already installed, and the other end of the culvert It is arrange | positioned over the both culvert units 10 so that the insertion part 30 of the unit 10 may be located. 1 shows an embodiment of the connection anchor bar 20 in detail, and FIGS. 3 and 4 show a state in which the connection anchor bar 20 according to the embodiment shown in FIG. 1 is located in the insertion part 30. 1, 3 and 4, the connecting anchor bar 20 has a rod member shape consisting of a long rigid body in the form of a rectangular parallelepiped, but at both ends thereof is transverse (orthogonal to the length direction). Direction) has a structure in which the anchor protrusions 21 protrude on both sides. The anchor protrusion 21 may be formed by, for example, penetrating a steel bar such as steel bars in the transverse direction to expose the end portion thereof. However, the method of forming the anchor protrusion 21 is not limited thereto.

On the other hand, when placing the connecting anchor bar 20 in the inserting portion 30, the support 22 such as a small piece plate so that there is a gap between the bottom surface of the connecting anchor bar 20 and the inner bottom surface of the inserting portion (30) ) Is disposed between the lower surface of the connecting anchor bar 20 and the inner bottom surface of the insertion part 30. In the state where the base 22 is attached to the lower surface of the connecting anchor bar 20 in advance, it is convenient to arrange the connecting anchor bar 20 in the insertion part 30.

Looking at an example of the installation method of the connecting anchor bar 20, while approaching the new culvert unit 10 toward the culvert unit 10 that is already installed, in the insertion portion 30 of the culvert unit 10 already installed One end of the connecting anchor bar 20 is inserted and disposed. About half of the length of the connecting anchor bar 20 is positioned in the insertion portion 30 of the culvert unit 10 already installed. If the culvert unit 10 is continuously arranged such that the joint surface of the new culvert unit 10 is in contact with the joint surface of the culvert unit 10 already installed, the other end of the connecting anchor bar 20, that is, the culvert unit 10 already installed In addition to the portion disposed in the insertion portion 30 of the), the remaining portion is disposed in the insertion portion 30 of the new culvert unit 10, so that the connecting anchor bar 20 at the junction of the culvert unit 10 is connected to both culvert units ( It is arrange | positioned over the insertion part 30 of 10).

On the other hand, as mentioned above, when the insertion portion 30 is formed in the hunt portion through which the tension material penetrates at the joint surface of the culvert unit 10, the tension material penetrates the connection anchor bar 20, so that the connection anchor bar 20 ), A through hole through which the tension member penetrates is formed in the longitudinal direction. Therefore, the tension member disposed through the one culvert unit 10 in a state in which the connection anchor bar 20 is disposed in the insertion part 30 passes through the through hole formed in the connection anchor bar 20 to connect the connection anchor bar 20. After passing through the neighboring other culvert unit 10.

When the filler is injected into the filler 11 of the culvert unit 10 through the filler inlet 18, the filler 13 not only flows into the filler 11 but also is inserted through the filler 11. The connection anchor bar 20 is embedded in the filler 13 in the inserting portion 30 by flowing into the filling portion 30 to fill the inserting portion 30. In this way, the connecting anchor bar 20 is embedded in the filler 13 in the state spanning the two culvert units 10, and hardened, so that both culvert units 10 exhibit a large shear resistance at their joints. In other words, even if a ground unevenness occurs and the shear force acting to shift both culvert units 10 up and down, the connecting anchor bar 20 extends across the culvert unit 10 in the present invention. Since it exists in the joint portion of the resistance to shear force, even if the ground erosion occurs, the effect of preventing the shear failure in the joint portion of the culvert unit 10 is exhibited.

In addition, the connecting anchor bar 20 is provided with an anchor protrusion 21 protruding in the lateral direction, and the anchor protrusion 21 functions as an anchor in the filler 13, thereby exhibiting a high pulling resistance. Therefore, high pull resistance and other flexural tensile resistance are exerted by the connecting anchor bar 20, and thus the joint is applied even if flexural tensile force is applied between the two culvert units 10 at the joint due to ground inequality. It is possible to prevent breakage such as cracking from occurring. Particularly, in the present invention, the insert portion 30 has a reverse tapered shape, and thus the filler 13 filled and inserted into the insert portion 30 may itself be anchored to the culvert unit 10. Since the pullout resistance is generated, it has a very large flexural tensile strength against the flexural tensile action as described above, thereby exhibiting excellent flexural tensile resistance.

5 to 7 are views corresponding to FIGS. 1, 3, and 4, respectively, and the culvert unit 10 using the connection anchor bar of another embodiment of the present invention in which the shape and configuration of the connection anchor bar 20 are modified. A schematic exploded perspective view showing the bonded state and a schematic cross sectional view along the lines DD and EE of FIG. 5.

In the embodiment shown in Figs. 5 to 7, the connecting anchor bar 20 is arranged after the plurality of longitudinal steel bars 26 with the gap-holding steel bars 25 arranged in the transverse direction, the end is A plurality of horizontal steel bars for anchoring projections 27 are disposed on the upper and lower surfaces of the longitudinal steel rods 26 so as to protrude beyond the width of the longitudinal steel rods 26 to form the anchor protrusions. It has a configuration in which the steel rods are integrally coupled. Other configuration, installation method, operation, etc. of the embodiment shown in Figures 5 to 7 are the same as the embodiment shown in Figures 1 to 4 described above will not be repeated description thereof.

8 to 10 also correspond to FIGS. 1, 3 and 4, respectively, the culvert unit 10 using the connection anchor bar of another embodiment of the present invention in which the shape and configuration of the connection anchor bar 20 are modified. ) Is a schematic exploded perspective view showing the state in which is bonded, and a schematic cross-sectional view taken along the line FF and line GG of FIG.

8 to 10, the connecting anchor bar 20 is made of a rectangular bar member having a thickness and a width and extending in the longitudinal direction of the culvert unit, the width of both ends of the connecting anchor bar 20 in the longitudinal direction This larger enlarged enlarged portion 28 has a shape in which it is formed. In this embodiment, the portion protruding laterally than the width of the rod member in the expansion portion 28 corresponds to the anchor projection. The connection anchor bar 20 according to the embodiment illustrated in FIGS. 8 to 10 may be made of various materials such as mortar, concrete, or fiber reinforced composite member. 8 to 10 are also the same as the embodiment shown in Figs. 1 to 4 described above with respect to other configurations, installation methods, operation effects, and the like, and thus a repeated description thereof will be omitted.

10: culvert unit, 20: connecting anchor bar

Claims (4)

The precast concrete box culvert unit 10 of the precast concrete box culvert unit 10 is made of a precast member to have a box-shaped cross section consisting of an upper plate, a lower plate, and a vertical wall portion, and the plurality of parts are joined to each other in the longitudinal direction to form a precast concrete box culvert. As a joining structure,
On the joint surface of the precast concrete box culvert units on both sides, the upper plate, the lower plate and the vertical wall portion are formed with a concave filling portion 11 in which the filling material 13 is filled;
The filling part 11 formed on the joint surface of the precast concrete box culvert unit is formed by digging deeper than the filling part 11 in the longitudinal direction of the precast concrete box culvert unit 10, and the culvert unit 10 from the joint surface. A concave insertion portion 30 of inverse tapered shape is formed, the size of which increases in the longitudinal direction of the cross section;
Precast concrete box culvert unit 10 is made of a rigid body having a shape extending in the longitudinal direction, both ends of the connection anchor bar 20 is formed with the anchor projection protruding in the transverse direction, precast facing each other Both ends are respectively inserted and disposed in respective insertion portions 30 formed at the joint surface of the concrete box culvert unit 10, so that the connection anchors are joined to each other with the joint surfaces of the precast concrete box culvert units 10 facing each other. Bars 20 are arranged across both precast concrete box culvert units 10;
In a state where the joining surfaces of both precast concrete box culvert units 10 face each other, and both ends of the connecting anchor bar 20 are disposed in the inserting portions 30 of the both precast concrete box culvert units 10, respectively. The filler 13 is inserted into the filling portion 11 and the inserting portion 30 to be filled and cured, so that a connection anchor bar exerting shear resistance and bending tensile resistance is disposed on the joint surfaces of both precast box culvert units 10. The joint structure of the precast concrete box culvert unit, characterized in that both sides of the precast concrete box culvert unit (10) are continuously and integrally coupled to each other in a state in which the joint is confined.
The method of claim 1,
The connecting anchor bar 20 has a rod member shape consisting of a rigid body having a rectangular parallelepiped shape, and has a configuration in which anchor protrusions are formed by exposing its ends by penetrating the steel rod in the transverse direction at both ends. Connection structure of precast concrete box culvert unit.
The method of claim 1,
The connecting anchor bar 20, after arranging the plurality of longitudinal steel bars 26 with the gap-holding steel bars 25 arranged in the transverse direction, the end is arranged in the horizontal direction of the longitudinal steel bar 26 A plurality of anchoring lateral steel bars 27 are disposed on the upper and lower surfaces of the longitudinal steel bars 26 so as to protrude beyond the width to form the anchor protrusions, and the steel bars are integrally coupled to each other. Joining structure of the precast concrete box culvert unit, characterized in that.
The method of claim 1,
The connecting anchor bar 20 has a rod member shape consisting of a rigid body having a rectangular parallelepiped shape.
The extension portion 28 has a wider width at both ends is formed, and the portion protruding laterally than the width of the rod member in the expansion portion 28 forms an anchor protrusion. Joining structure of the precast concrete box culvert unit, characterized in that.

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