KR101343057B1 - Prestressed concrete girder segment hybrid joint structure - Google Patents

Abstract

The present invention increases the continuous connection stiffness at the connection portion between the constant moment PSC U girder segment and the parent moment PSC U girder segment, regardless of the lower terrain conditions such as rivers, coasts, mountains, and urban areas. The objective is to provide a PSC girder segment hybrid connection structure that enables the connection of PSC U girder segments in the air without the need for installing temporary supports.
PSC girder segment hybrid connection structure according to the present invention for achieving the above object in the PSC U girder segment connection structure for continuously connecting the constant moment portion PSC U girder segment and the parent portion PSC U girder segment, the constant moment portion The steel U girder is synthesized at the end of the PSC U girder segment and the parent cement portion PSC U girder segment, and a predetermined section of the steel U girder is formed in the composite state with the constant moment portion PSC U girder segment and the parent cement portion PSC U girder segment. After the remaining constant section is formed in a non-synthetic state, the non-synthetic steel U girder portion of the static moment part PSC U girder segment and the parent moment part PSC U girder segment ends is connected to the constant moment part PSC U girder by connecting steel plates. The upper flange, the lower flange and the abdomen of the segment and the parent part PSC U girder segment are connected to each other and connected by the connecting steel sheet. After the connection concrete is placed inside the connection part of the constant moment part PSC U girder segment and the parent part part PSC U girder segment, the constant moment part PSC U girder segment and the parent moment part PSC U girder segment are connected to each other by concrete, The entire section is continuously connected by the tension of the continuously connected PS tendon positioned at the abdomen of the cement portion PSC U girder segment and the parent cement portion PSC U girder segment.

Description

Prestressed concrete girder segment hybrid joint structure

The present invention relates to a PSC girder segment hybrid connection structure, in particular, to connect the PSC U girder segment in the air without having to install a temporary support under the PSC U girder segment regardless of the lower terrain conditions such as rivers, coasts, mountains, urban areas The present invention relates to a PSC girder segment hybrid connection structure.

Conventional PSC U girder segment connection structure has mainly used the connection method by the continuous connection PS tendon.

PSC U girder segment connection structure by the connection method by the continuous connection PS tendon, such as, first, after installing a temporary support that can support the segment girder in the lower portion of the PSC U girder segment connecting portion, and then the PSC U girder on the temporary support After the segment is mounted, while the PSC U girder segment is mounted, a continuous connection PS tendon is installed on the PSC U girder segment, and the connection is synthesized by epoxy filling or additional concrete casting at the connection portion of the PSC U girder segment. After connecting the PSC U girder segment girder by tensioning the continuous connection PS tendon, the construction is installed in the order of dismantling the temporary support installed on the lower portion of the PSC U girder segment girder.

The conventional PSC U girder segment connection structure constructed in the above-described order has the advantage that the continuous connection structure is simple as the connection method by the continuous connection PS tendon, but it requires a large amount of cost when installing the temporary support. In particular, when the temporary support can not be installed under the PSC U girder segment in a river, coast, mountain area or downtown area, it is impossible to apply the PSC U girder segment with excellent economic efficiency.

Therefore, there is a need for a continuous connection method that enables continuous connection of the PSC U girder segment in the air without using a temporary support under the PSC U girder segment or overcomes the terrain conditions of the construction site with minimal use of the temporary support. .

Accordingly, the present invention has been made to solve the problems described above, by increasing the continuous connection rigidity of the connection portion of the constant moment portion PSC U girder segment and the parent moment portion PSC U girder segment streams, coasts, mountains, urban It is an object of the present invention to provide a PSC girder segment hybrid connection structure that enables the connection of a PSC U girder segment in the air without having to install a temporary support under the PSC U girder segment regardless of the geographic conditions such as the region.

PSC girder segment hybrid connection structure according to the present invention for achieving the above object in the PSC U girder segment connection structure for continuously connecting the constant moment portion PSC U girder segment and the parent portion PSC U girder segment, the constant moment portion The steel U girder is synthesized at the end of the PSC U girder segment and the parent cement portion PSC U girder segment, and a predetermined section of the steel U girder is formed in the composite state with the constant moment portion PSC U girder segment and the parent cement portion PSC U girder segment. After the remaining constant section is formed in a non-synthetic state, the non-synthetic steel U girder portion of the static moment part PSC U girder segment and the parent moment part PSC U girder segment ends is connected to the constant moment part PSC U girder by connecting steel plates. The upper flange, the lower flange and the abdomen of the segment and the parent part PSC U girder segment are connected to each other and connected by the connecting steel sheet. After the connection concrete is placed inside the connection part of the constant moment part PSC U girder segment and the parent part part PSC U girder segment, the constant moment part PSC U girder segment and the parent moment part PSC U girder segment are connected to each other by concrete, The entire section is continuously connected by the tension of the continuously connected PS tendon positioned at the abdomen of the cement portion PSC U girder segment and the parent cement portion PSC U girder segment.

As described above, the PSC girder segment hybrid connection structure according to the present invention has the following effects.

Firstly, the present invention can construct the PSC girder segment in the most economical manner regardless of the terrain and without installing the temporary support.

Second, the present invention can minimize the installation and use even if the use of the temporary support is inevitable.

Third, the present invention greatly increases the structural safety of the connection stiffness.

1 is a side view showing a PSC U girder segment hybrid connection structure according to the present invention;
FIG. 2 is an enlarged detailed view of a portion “A” of FIG. 1;
3 is a sectional view taken along the line AA in Fig. 2,
Fig. 4 is a sectional view taken along line BB of Fig. 2,
5 is a sectional view taken along line CC of Fig. 2,
FIG. 6 is a cross-sectional view taken along line DD of FIG. 2,
FIG. 7 is a sectional view taken along the line EE of FIG. 2,
8 is a detailed side view showing a PSC I girder segment hybrid connection structure according to the present invention;
9 is a cross-sectional view taken along the line AA of FIG. 8;
10 is a sectional view taken along line BB of Fig. 8,
11 is a cross-sectional view taken along line CC of Fig. 8,
12 is a cross-sectional view taken along the line DD of FIG. 8.

[PSC Girder Segment Hybrid Connection Structure]

1 is a side view illustrating a PSC U girder segment hybrid connection structure according to the present invention, FIG. 2 is an enlarged view of portion “A” of FIG. 1, and FIG. 3 is a cross-sectional view taken along line AA of FIG. 2. 4 is a cross-sectional view taken along line BB of FIG. 2, FIG. 5 is a cross-sectional view taken along line CC of FIG. 2, FIG. 6 is a cross-sectional view taken along line DD of FIG. 2, and FIG. 7 is a cross-sectional view taken along line EE of FIG. 2.

As shown in these figures, the PSC girder segment hybrid connection structure (UG) according to the present invention is a PSC for continuously connecting the constant moment PSC U girder segment (+ UG) and the parent moment PSC U girder segment (-UG). U girder segment connection structure,

A steel U girder (SUG) is synthesized at an end of the constant moment portion PSC U girder segment (+ UG) and the parent moment portion PSC U girder segment (-UG), and a constant section of the steel U girder SUG is a constant moment. After forming the composite PSC U girder segment (+ UG) and the parent PSC U girder segment (-UG) in a synthetic state, and the remaining constant section is formed in a non-synthetic state, the positive moment PSC U girder segment (+ UG) and the parent moment part PSC U girder segment (-UG) The non-synthetic steel U girder (SUG) part is connected by the steel plate (JP) to the constant moment part PSC U girder segment (+ UG) and the parent part part PSC The upper flange, the lower flange and the abdomen of the U girder segment (-UG) are connected to each other, and the constant moment portion PSC U girder segment (+ UG) and the parent moment portion PSC U girder are joined and connected by the connecting steel plate (JP). The connecting concrete 40 is poured inside the connection part J with the segment (-UG), so that the constant moment part PSC U girder segment (+ UG) and the parent part PSC U girder segment (-UG) are connected to each other by concrete, and then the positive moment PSC U girder segment (+ UG) and the parent part PSC U girder segment (-UG) All sections are continuously connected by the tension of the continuous connection PS tendon 20 located in the abdomen.

The cross section of the connecting portion (J) of the constant moment portion PSC U girder segment (+ UG) and the parent moment portion PSC U girder segment (-UG) is larger in cross section than that of the section other than the connecting portion (J), and the cross section is increased. Continuous connection auxiliary PS tendon 30 is installed and tensioned at the portion.

That is, according to the present invention, the PSC girder segment hybrid connection structure includes the steel U girder (SUG) and the end of the connecting portion (J) of the constant moment PSC U girder segment (+ UG) and the parent moment PSC U girder segment (-UG). A steel U girder (SUG) composited with the constant moment part PSC U girder segment (+ UG) and the parent moment part PSC U girder segment (-UG) is combined with the constant moment part PSC U girder segment (+ UG) In the case of continuous connection of the parent part PSC U girder segment (-UG), the load on the connection part (J) is taken into account.

Here, the continuous connection of the constant moment part PSC U girder segment (+ UG) and the parent moment part PSC U girder segment (-UG) are continuously connected at the time of initial installation by the connecting steel plate (JP) like the steel U girder (SUG). The connection part (J) of the constant moment part PSC U girder segment (+ UG) and the parent moment part PSC U girder segment (-UG) is further continuously connected by the continuous connection PS tendon 20, and then the constant moment After placing concrete on the lower flange and the abdomen of the connection part J between the secondary PSC U girder segment (+ UG) and the parent PSC U girder segment (-UG), the positive moment PSC U girder segment (+ UG) Tension of the continuous connection PS tendon 20 with the parent portion PSC U girder segment (-UG) to finally complete the PSC U girder segment (+ UG, -UG) bridge.

In this way, it is possible to perform all work processes in the air without using a temporary support under the connection part (J) of the constant moment part PSC U girder segment (+ UG) and the parent moment part PSC U girder segment (-UG), Even if a temporary support is needed, the installation of the temporary support can be minimized the most, so the construction cost can be greatly reduced or the construction of the above method can be performed even on terrain where the PSC U girder segment (+ UG, -UG) cannot be applied due to the terrain conditions. Because of this, economics can be greatly increased.

In addition, as described above, the PSC girder segment hybrid connection structure according to the present invention uses the steel U girder (SUG) as a primary continuous connection means by synthesizing concrete and steel in the connection portion (J), and continuously Since the continuous connection is reinforced by the connection PS tendon 20, it is possible to implement a perfect continuous connection performance.

In addition, the cross section of the PSC U girder segment (+ UG, -UG) of the connecting portion J is increased to the cross section of the PSC U girder segment (+ UG, -UG) instead of the connecting portion J, thereby supporting the auxiliary continuous PS tendon ( The application of 30) complements safety during construction and adds additional continuous connection performance to the connection part (J) during common use, making it the most complete PSC U girder segment (+ UG, -UG) continuous connection method.

[PSC I Girder Segment Hybrid Connection Structure]

8 is a detailed side view illustrating a PSC I girder segment hybrid connection structure according to the present invention, FIG. 9 is a cross-sectional view taken along the line AA of FIG. 8, FIG. 10 is a cross-sectional view taken along the line BB of FIG. 8, and FIG. CC line sectional drawing, FIG. 12 is DD line sectional drawing of FIG.

As shown in these figures, the PSC I girder segment hybrid connection structure according to the present invention is a PSC I girder for continuously connecting the constant moment PSC I girder segment (+ IG) and the parent moment PSC I girder segment (-IG). In the segment connection structure, a steel I girder (SIG) is synthesized at an end of the positive moment portion PSC I girder segment (+ IG) and the parent moment portion PSC I girder segment (-IG), and the steel I girder (SIG). The constant section is formed in a composite state with the positive moment part PSC I girder segment (+ IG) and the parent moment part PSC I girder segment (-IG), and the remaining constant period is formed in a non-synthetic state, and then the constant moment part PSC I girder segment (+ IG) and non-synthetic steel I girder (SIG) at the end of the PSC I girder segment (-IG) The positive moment PSC I girder segment (+ IG) by connecting steel plate (JP) ) And upper flange and lower flange of the PSC I girder segment (-IG) The connecting concrete is connected to the inside of the connecting portion J of the constant moment portion PSC I girder segment (+ IG) and the parent moment portion PSC I girder segment (-IG) connected by the connecting steel sheet JP. After placing and joining the constant moment part PSC I girder segment (+ IG) and the parent part part PSC I girder segment (-IG) to concrete, and then the constant moment part PSC I girder segment (+ IG) and parent part part All sections are continuously connected by the tension of the continuous PS tendon 20 located in the abdomen of the PSC I girder segment (-IG).

That is, according to the present invention, the PSC girder segment hybrid connection structure includes a steel I girder (SIG) and an end portion of the connection part (J) of the positive moment portion PSC I girder segment (+ IG) and the parent moment portion PSC I girder segment (-IG). Steel I girder (SIG), which is synthesized and bonded to the constant moment portion PSC I girder segment (+ IG) and the parent moment portion PSC I girder segment (-IG), is combined with the constant moment portion PSC I girder segment (+ IG). In the case of continuous connection of the parent part PSC I girder segment (-IG), the load on the connection part (J) is taken into account.

Here, the continuous connection of the constant moment part PSC I girder segment (+ IG) and the parent moment part PSC I girder segment (-IG) is connected continuously at the time of initial installation by the connecting steel plate (JP) together with the steel I girder (SIG). The connection part J of the constant moment part PSC I girder segment (+ IG) and the parent moment part PSC I girder segment (-IG) is further continuously connected by a continuous connection PS tendon 20, and then After placing concrete on the lower flange and the abdomen of the connection part J of the cemented portion PSC I girder segment (+ IG) and the parent cemented portion PSC I girder segment (-IG), the positive moment portion PSC I girder segment (+ IG) ) And the continuous connection PS tendon 20 of the parent portion PSC I girder segment (-IG) to finally complete the PSC I girder segment (+ IG, -IG) bridge.

In this way, it is possible to perform all work processes in the air without using a temporary support under the connection part (J) of the constant moment part PSC I girder segment (+ IG) and the parent moment part PSC I girder segment (-IG), Even if a temporary support is needed, the installation of the temporary support can be minimized, so that the construction cost can be greatly reduced or the construction of the above method can be performed even on terrain where the PSC I girder segment (+ IG, -IG) cannot be applied due to the terrain conditions. Because of this, economics can be greatly increased.

In addition, as described above, the PSC girder segment hybrid connection structure according to the present invention uses the steel I girder (SIG) as the primary continuous connection means by synthesizing the concrete and the steel in the connecting portion (J), and the second continuous Since the continuous connection is reinforced by the connection PS tendon 20, it is possible to implement a perfect continuous connection performance.

20: Continuous connection PS tendon 30: Continuous connection auxiliary PS tendon
+ IG: PSC I girder segment for constant moment -IG: PSC I girder segment for parent moment
J: Connecting part JP: Connecting steel sheet
+ UG: PSC U girder segment with constant moment -UG: PSC U girder segment with parent moment
SIG: Steel I girder SUG: Steel U girder

Claims (3)

In the structure of connecting the positive and parent PSC U girder segments continuously,
The steel U girder is combined at the end of the PSC U girder segment of the positive and non-mention sections, and a certain section of the steel U girder is formed in the composite state with the PSC U girder, and the other fixed section is formed in an unsynthetic state, and then each segment girder The non-synthetic steel U girder at the end is joined to the upper and lower flanges and the abdomen by connecting steel plates, and the connecting concrete is poured inside the continuous connecting parts connected by the connecting steel plates, and each segment part is connected by concrete PSC Girder Segment Hybrid Connection Structure The method of claim 1,
The cross section of the continuous connection part of the PSC U girder segment of the positive and non-mention part has a structure that has a larger cross section than that of a section that is not a continuous connection part, and the PSC girder is characterized by the tension of the continuous connection auxiliary PS tendon installed in the structure where the cross section is increased. Segmented Hybrid Connection. The method of claim 1,
PSC girder segment hybrid connection structure, characterized in that the PSC U girder segment connection structure is also applied to the PSC I girder segment.

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