KR20030052868A - Joint of base concrete structure and bridge pier and its jointing method - Google Patents

Abstract

PURPOSE: A joint of footing concrete and a pier column is provided to reduce construction expenses of a pier by using inexpensive deformed bars instead of expensive anchor bolts. CONSTITUTION: The joint of footing concrete(30) and a pier column(1) comprises outer bars(53) drove in the footing concrete(30) and located around the outer circumference of the pier column(1), inner bars(52) drove in the footing concrete(30) and located around the inner circumference of the pier column(1), and shear bars(54) drove in the footing concrete(30) and arranged along the outer circumference of the outer bar(53), and the outer bars(53) and the shear bars(54) are connected, and the outer bars(53), the inner bars(52) and the shear bars(54) are housed in the concrete.

Description

Joint of base concrete structure and bridge pier and its jointing method

The present invention relates to the connection portion of the foundation concrete portion buried in the ground and the steel or composite pier pillars upright on the ground, in particular, the construction is simple and low cost by connecting the basic concrete portion and steel or synthetic pier pillars with deformed steel The present invention relates to a connection part of a foundation concrete part and a pillar column, and a construction method thereof, in which a pier can be constructed.

Bridge piers are composed of concrete piers composed of concrete structures, steel piers composed of steel materials, and composite piers made of concrete embedded inside steel piers. Piers associated with the present invention are steel piers and composite piers, and the piers described below represent pillars of steel piers or composite piers.

1 is a cross-sectional view showing a connection portion of the pier and the foundation concrete according to the prior art.

As shown in Figure 1, the anchor frame 10 is located in the ground, the base plate 20 is located on the upper portion of the anchor frame (10). Then, the anchor bolt 3 penetrated in one row along the circumference of the anchor frame 10 and the base plate 20 is fastened. Here, the base plate 20 includes an upper plate 21 and a lower plate 22, and the anchor bolt 3 penetrates the upper and lower plates 21 and 22 and the nut 5 on the upper surface of the upper plate 21. ) Is fastened.

In addition, the anchor frame 10 is embedded in the base concrete, the lower plate 22 is located at the same level as the base concrete, the concrete is poured into the circumference of the base plate 20 and the interior of the pier pillar 1 is cured. Concrete filled in such a pier pillar serves to protect to prevent the risk of the pier is broken due to collision by the vehicle. Resist in the anchor frame 10 and the anchor bolt (3) against the external force applied to the piers (1).

However, in order to connect the anchor frame 10 and the base plate 20 with the anchor bolts 3, a large amount of high-strength anchor bolts must be used, and thus a large construction cost is required, and a complicated structural design of the anchor frame 10 is performed. The disadvantage is that it should be.

The present invention is provided to solve the problems of the prior art as described above, by connecting the basic concrete portion and the pier with a deformed reinforcing bar, the construction is easy to use the low-cost deformed reinforcement of the low-cost construction of the basic concrete section and pier pillar The purpose is to provide a connection portion and its construction method.

1 is a cross-sectional view showing a connection portion of the piers and foundation concrete according to the prior art,

2 is a cross-sectional view showing a connection portion of a composite piers using a deformed steel reinforcement bar according to an embodiment of the present invention,

3 is a detailed view of the original part shown in FIG.

♠ Explanation of symbols on the main parts of the drawing ♠

1: pier pillar 3: anchor bolt

5: nut 7: rib

10: anchor frame 20: base plate

30: concrete foundation 41, 42 ,: setting frame

43: lower plate 52, 53, 54: deformed bar

According to the present invention for achieving the object as described above, in the connecting portion connecting the bridge pillar and the foundation concrete standing upright on the upper surface of the foundation concrete, is embedded in the foundation concrete is located around the outer peripheral surface of the bridge pillar A pier pillar including inner reinforcing bars and inner reinforcing bars embedded in the foundation concrete and positioned around an inner circumferential surface of the pier pillar, and including a concrete block for receiving the outer reinforcing bars and the inner reinforcing bars protruding out of the foundation concrete; Connections of foundation concrete are provided.

In addition, it further includes shear reinforcing bars embedded in the foundation concrete of the present invention disposed along the outer circumference of the outer reinforcing bars.

In addition, the inside of the base concrete of the present invention is formed with a plurality of through-holes in which the inner reinforcement and the outer reinforcement is inserted and are located in the upper and lower portions of the inner concrete, respectively, and the two plates Located between the fixing member to each plate is fixed to both ends.

In addition, a plate is fixed to a lower end of the pier pillar of the present invention, the plate is formed with a through hole through which the outer bars and the inner bars.

In addition, the reinforcing bar of the present invention is a deformed bar.

In addition, according to the present invention, in the construction method of the connecting portion for connecting the bridge pillar and the foundation concrete that is located at the lower end of the bridge pillar supporting the bridge pillar, the first reinforcing bars inserted into the interior of the bridge pillar on the upper surface And curing the concrete so that the second reinforcing bars protrude along the outer circumferential surface of the pier pillar, thereby curing the foundation concrete, and placing the pier pillar between the first reinforcing bar and the second reinforcing bar; Provided is a connection method for connecting a bridge pillar and a foundation concrete including a step of pouring concrete and curing the second reinforcing bar exposed to the upper surface of the foundation concrete and the first reinforcing bar located inside the pier pillar.

In the following, with reference to the accompanying drawings, preferred embodiments of the connection portion and the construction method of the foundation concrete portion and the pillar column according to the present invention will be described in detail.

2 is a cross-sectional view showing a connecting portion of a composite piers using a deformed steel reinforcement bar according to an embodiment of the present invention, Figure 3 is a detailed view of the original portion shown in FIG.

As shown in Figures 2 and 3, the foundation concrete portion 30 is buried in the ground is located, the interior of the foundation concrete portion 30 is set in the upper and lower portions corresponding to the point where the pier pillar 1 is located Plates 41 and 42 are located. The setting plates 41 and 42 have a plurality of through-holes formed in two rows along the edge thereof, and between the two rows, fixed deformed steel bars 51, which are fixed members, are positioned, and upper and lower ends of the fixed deformed steel bars 51 are set up and down, respectively. The plates 41 and 42 are fixed. Then, the deformed steel bars 52 and 53 are inserted into the through holes of the upper and lower setting plates 41 and 42 to protrude out of the upper surface of the basic concrete part 30.

On the other hand, the lower surface of the pier pillar (1) is in contact with the upper surface of the foundation concrete portion 30, the lower plate 43 is fixed to the lower end of the pier pillar (1). Two rows of through holes are formed in the lower plate 43 to correspond to the through holes of the setting plates 41 and 42 so that the deformed bars 52 and 53 penetrating the upper and lower setting plates 41 and 42 penetrate. At this time, the pier pillar (1) is located between the through holes formed in two rows. Below, in the two rows of through holes formed in the setting plates 41 and 42 and the lower plate 43, one row inward is referred to as 'inner', and one row outward is referred to as 'outer'. When the deformed reinforcement inserted into the inner reinforcing bar 52 and the deformed reinforcing bar inserted into the outer through hole were referred to as the 'outer deformed bar 53', the inner deformed bar 52 was a pier pillar (1). Located inside the, the outer deformed bar 53 is disposed along the circumference of the pier pillar (1) on the outside of the pier pillar (1), the upper end of this outer deformed bar (53) outside the pier pillar (1) Is bent in the direction.

Meanwhile, another deformed rebar, shear deformed bars 54 are located along the circumference of the pier pillar 1 on the outer side of the outer deformed bar 53, and the shear deformed bar 54 prevents shear failure of the concrete block. Are placed to prevent. The lower end of the shear deformed bar 54 is located in the interior of the concrete portion 30 and the upper end is bent to surround the bent upper end of the outer deformed bar (53).

And, it is preferable that the upper end of the shear deformed bar 54 and the upper end of the outer deformed bar 53 are fixed, and the ribs 7 are formed on the upper surface of the lower plate 43 and the outer circumference of the piers 1. ) Is fixed.

It will be described in detail the construction method of the base concrete portion and the connection portion of the bridge having such a connection relationship.

Once, the ground is excavated to form and reinforcement at the point where the base concrete portion 30 is to be located. Then, the upper and lower setting plates 41 and 42 are fixed to the fixed deformed rebar 51 as a fixing member, and the outer deformed reinforcing bar 53 and the inner deformed reinforcing bar 52 are inserted into the through holes of the upper and lower setting plates 41 and 42. The shear deformed reinforcement 54 is placed around the outer deformed reinforcement 53, and then casts and cures concrete in the formwork to form the foundation concrete part 30. Then, the inner deformed reinforcing bar 52 and the outer deformed reinforcing bar 53 protruding from the upper surface of the foundation concrete part 30 are inserted into the through holes of the lower plate 43 fixed to the lower end of the pier pillar 1, The upper end of the deformed bar 53 is bent.

Then, the upper end portion of the shear deformed steel bar 54 protruding from the upper surface of the foundation concrete part 30 is bent to surround the upper end of the bent outer deformed steel bar 53, and then the upper end of the outer deformed steel bar 53 and the shear release part. Fix the upper end of the reinforcing bar 54. Then, formwork is installed on the upper surface of the foundation concrete part 30 so as to surround the shear deformed reinforcing bar 54, and the concrete is poured into the formwork to cure. At this time, by placing concrete in the interior of the pier pillar (1) so that the inner deformed reinforcing bar 52 located in the interior of the pier pillar (1) is fixed to the interior of the concrete.

On the other hand, the connection portion of the foundation concrete portion and the pier pillar according to the embodiment of the present invention described above has been described that the upper end of the outer deformed reinforcement bar 53 and the shear deformed reinforcement bar 54 is bent, which is the joint strength of the reinforcement and concrete When the fixing length is not enough to be exerted, it is only bent to improve the bond between the reinforcing bar (53, 54) and the concrete, and when the fixing length is sufficient, the outer deformed bar (53) and the shear deforming bar (54). No need to bend the top of This is sufficient to extend straight in a straight line, such as the inner deformed reinforcing bar 52 located inside the pier pillar (1).

The circumferential circumference of the deformed reinforcing bar is formed with a plurality of protrusions in the longitudinal direction to improve the friction between the concrete and the deformed bar, thereby reinforcing the strength of the deformed bar and the concrete.

As described in detail above, the connection portion and the construction method of the foundation concrete part and the pillar column of the present invention has the advantage that the construction cost of the pier can be reduced by using an inexpensive deformed reinforcing bar in place of the expensive anchor bolt.

In addition, the connection portion and the construction method of the foundation concrete portion and the pillar column of the present invention improves the frictional force with the concrete by using a deformed reinforcing bar formed with a protrusion along the length in place of the anchor bolt, thereby improving the strength of the pillar pillar and the foundation concrete portion It has the advantage of improving.

In the above description, the technical idea of the connection portion of the foundation concrete part and the piers and the construction method of the present invention has been described together with the accompanying drawings, but this is only illustrative of the best embodiments of the present invention and is not intended to limit the present invention. . In addition, it is obvious that any person skilled in the art can make various modifications and imitations without departing from the scope of the technical idea of the present invention.

Claims (6)

In the connecting portion connecting the pillar column and the foundation concrete, which is erected upright on the upper surface of the foundation concrete, Outer reinforcing bars embedded in the foundation concrete and positioned around the outer circumferential surface of the piers; Including the inner reinforcing bars embedded in the foundation concrete and located around the inner peripheral surface of the piers, The bridge pillar and the connection of the foundation concrete, characterized in that it comprises a concrete block for receiving the outer reinforcement and the inner reinforcement protruding out of the base concrete. The method of claim 1, Connection part of the piers pillar and the foundation concrete, characterized in that it further comprises shear reinforcement embedded in the foundation concrete along the outer circumference of the outer reinforcement. The method of claim 1, A plurality of through holes into which the inner reinforcing bars and the outer reinforcing bars are inserted are formed in the interior of the foundation concrete, and two plates respectively disposed on the upper and lower parts of the foundation concrete, and positioned between the two plates. Connection portion of the piers and the foundation concrete, characterized in that it comprises a fixing member is fixed to each plate. The method of claim 1, A plate is fixed to a lower end of the pier pillar, the connection portion of the pier pillar and the foundation concrete, characterized in that the plate is formed through holes through which the outer bars and the inner bars penetrate. The method according to any one of claims 1 to 4, Wherein the reinforcing bars are pier pillars, characterized in that the reinforcing bars are connected to the concrete. In the construction method of the connecting portion for connecting the foundation concrete which is located at the lower end of the bridge column and the bridge column supporting the bridge column, Curing the concrete by pouring concrete such that the first reinforcing bars inserted into the pier pillar and the second reinforcing bars located along the outer circumference of the pier pillar are projected on the upper surface; Positioning the piers between the first bars and the second bars; Construction method for connecting the bridge pillar and the foundation concrete comprising the step of curing the concrete to surround the second reinforcing bar exposed to the upper surface of the foundation concrete and the first reinforcing bar located inside the pier pillar .