KR20120018565A - Continuous supporting structure of corrugated steel web psc beam using secondary tendon and method for constructing the same - Google Patents

Abstract

PURPOSE: A continuous support structure of a PSC girder using a secondary tendon and a method for constructing the same are provided to enhance the field workability of a continuous support and improve appearance since there is no need for a separate tendon arrangement. CONSTITUTION: A continuous support structure of a PSC girder using a secondary tendon is as follows. Two girders(G1,G2) are coupled to pier(P) by a joint plate(101). Continuity is made using a secondary tendon(133) that is arranged based on an increased load during construction.

Description

Continuous supporting structure of corrugated steel web PSC beam using secondary tendon and method for constructing the same}

The present invention relates to an abdominal corrugated steel sheet PS girder, and more particularly to a continuous point structure of the abdominal corrugated steel sheet PS girder with improved construction and beautiful appearance.

Prestressed precast concrete (PSC) girder is a lightweight corrugated steel sheet that replaces the abdominal member, which accounts for 20 ~ 30% of the mold weight, and the bending moment resists the upper and lower concrete flanges and the shear force resists the corrugated steel sheet. will be. The reduction of dead weight allows the reduction of the upper mold design member force, the lower part, and the base structure, and the use of corrugated steel sheet that does not resist axial force, so that prestressing can be efficiently introduced into the upper and lower concrete flanges. There is an advantage that can secure the shear buckling strength. In addition, the site workability is improved by eliminating the abdominal reinforcement and concrete work that requires the most form of foam, which has the advantage of shortening the air and reducing the construction cost.

Figure 7 is a side view showing the structure of the continuous point portion of the conventional abdominal corrugated steel sheet PS girder, Figure 8 is a perspective view schematically showing the construction process.

Referring to Figures 7 and 8, the structure of the continuous point portion of the conventional abdominal corrugated steel sheet PS girder is installed to protrude the joining plate 101 on the end surface of the side connected to each other on the bridge (P) and the upper concrete flange ( 12) the girder (G1, G2) extending from the bottom to the height from the end to the center portion and forming a cross-sectional enlarged portion 121 with a sheath embedded therein is mounted on the piers (P) and then laminated plate 101 ) Are connected to each other and the tension member 122 is disposed inside the sheath buried in the cross-sectional enlarged part 121 so as to connect the girders G1 and G2 to each other, and then the tension is settled and the junction plate 101 is embedded and the girders G1. , G2) is poured into a cross beam concrete 14 that connects each other in the lateral direction to form a structure integrated. At the ends of the girders G1 and G2, concrete end blocks 111 are formed for fixing the primary tension member 132 embedded in the lower concrete flange 13 and for end treatment of the corrugated steel cover member 11. A bracket portion 131 for fixing the secondary tension member 133 is formed to extend upward from the lower concrete flange 13.

The continuous point structure of the existing abdominal corrugated steel sheet PS girder configured as described above is enlarged in cross section extending downward from the upper concrete flange 12 for the continuity of the girder (G1, G2) connected to each other on the bridge (P). The portion 121 is formed separately, and the tension member 122 is disposed therein, and has a structure of continuing using the same. Therefore, since the arrangement and tension work of the separate tension member 122 is necessary for the continuation of the girders G1 and G2, the field workability is inferior and the structure of the continuous point portion of the girders G1 and G2 may be complicated to look coarse. There are disadvantages.

The present invention is to solve the disadvantages of the structure of the continuous point portion of the conventional abdominal corrugated steel sheet PS girder has the following object.

An object of the present invention is to provide a structure of a continuous point portion of an abdominal corrugated steel sheet PS girder with improved workability and beautiful appearance, and a construction method thereof.

According to a preferred embodiment of the present invention, the abdominal corrugated steel sheet having a secondary tension member in which the primary tension member is tensioned to control cracking and sagging due to the weight of the girder at the time of construction and is placed and tensioned in consideration of the increase in load for each construction stage. In the continuous point structure of the girder, exposed junction plates protruding from the end faces of the sides connected to each other over the piers are connected to each other and extend through the continuous point at one end of the girder to the other continuous point at the end of the other girder. Continuous points of the abdominal corrugated steel PS girder, characterized in that they are connected so that one end is connected to the secondary tension member of one girder and the other end is connected to each other through the secondary tension member which is tension-settled at the other continuous point portion of the other girder. A substructure is provided.

According to another suitable embodiment of the present invention, an abdominal corrugated steel sheet having a secondary tension member in which a primary tension member for controlling cracks and deflections due to self-weight of the girder is tensioned and disposed in consideration of an increase in load by construction stages In the continuous point construction method of seed girders, (a) the abdominal corrugated steel sheet in two forms: an end girder having one end supported by a shift and the other end supported by a pier, and a central girder having both ends supported by a pier. Making a seed girder; (b) the construction of the end girders, the construction of the center girders, and the end girders and the center girders protruding from the ends of the girders and stiffening by connecting the exposed junction plates, and the end girders and the center girders are arranged to penetrate the continuous point. A second tension member connected to the secondary tension member disposed at the end girder and the other end being continuous with each other through the secondary tension member which is tension-settled at another continuous point of the center girder; (c) sequentially connecting the center girders with a bonding plate and stiffening each other, and then repeating the process using a secondary tension member and continuing the middle girders and the end girders as in step (b), thereby continuing all the girders; And (d) placing and integrating the crossbeam concrete simultaneously with the slab concrete, in which the laminated plate is embedded and connects the girder to each other in the cross direction, thereby integrating the continuous corrugated steel sheet PS girder. .

The continuous point structure of the abdominal corrugated steel sheet CS girder according to the present invention is a structure in which the girder is continuous by using a secondary tension member that is rigid in consideration of the increase in load by construction stages by stiffening the girder using a laminated plate protruding from the end of the girder. There is no need to form a cross-sectional enlargement in the girder at the continuous point portion, and there is no need for a separate tension member arrangement and tension work, thereby improving the field workability of the continuous point portion and improving the appearance.

The following drawings, which are attached in the present specification, illustrate exemplary embodiments of the present invention, and together with the detailed description of the present invention, serve to further understand the technical spirit of the present invention. It should not be construed as limited.
1 is a side view showing the structure of the continuous point portion of the abdominal corrugated steel sheet PS girder according to the present invention.
Figure 2 is a flow chart illustrating a method for constructing a continuous point portion of the abdominal corrugated steel sheet PS girder according to the present invention.
Figure 3 is a side view schematically showing the sequence of construction of the continuous point portion of the abdominal corrugated steel sheet CS girder according to the present invention.
Figure 4 is a cross-sectional view showing the shape of the abdominal corrugated steel sheet PS girder to which the present invention can be applied.
Figure 5 is a side view showing the end abdominal corrugated steel sheet CS girder according to the present invention.
Figure 6 is a side view showing a central abdominal corrugated steel sheet CS girder according to the present invention.
Figure 7 is a side view showing the structure of the continuous point of the conventional abdominal corrugated steel sheet PS girder.
Figure 8 is a perspective view schematically showing the construction process of the continuous point portion of the conventional abdominal corrugated steel sheet CS girder.

In the following the present invention will be described in detail with reference to the embodiments shown in the accompanying drawings, but the embodiments presented are exemplary for a clear understanding of the present invention is not limited thereto.

In the present specification, the same reference numerals are used for the same components as those constituting the continuous point portion of the conventional abdominal corrugated steel sheet CS girder.

1 is a side view showing the structure of the continuous point portion of the abdominal corrugated steel sheet PS girder according to the present invention.

Referring to Figure 1, the structure of the continuous point portion of the abdominal corrugated steel sheet PS girder according to the present invention, the girder (G1, G2) of both sides on the bridge (P) to the bonding plate 101 to increase the load by construction stage It has a structure that is continuous with each other by using the secondary tension material 133 to be placed in tension. That is, conventionally, as shown in Figure 6 extends downward from the upper concrete flange 12 and forms a cross-sectional enlarged portion 121 embedded with a sheath therein, and through a separate tension member installed inside the cross-sectional enlarged portion 121 While the girders G1 and G2 are continuous with each other, in the present invention, the girder G1 and G2 are continuous by using the secondary tension member 133, so that the cross-sectional enlarged portion 121 is formed in the girder at the continuous point. And separate tensioning and tensioning work is unnecessary. Secondary tension member 133 is to be distinguished from the primary tension material to be tensioned and settled during the girder is further disposed and tensioned and settled in the girder in consideration of the increase in load for each construction stage. Therefore, in the present invention, the secondary tension member 133 serves to continuously connect the girder G1 and G2 connected to each other on the pier while appropriately coping with the increase in load during construction. In addition, in the present invention, the secondary tension members 133 for continuing the girders G1 and G2 are connected to one another without being disconnected across the foreground of the bridge using various couplers known in the art.

 Referring to the structure of the continuous point portion of the abdominal corrugated steel sheet PS girder according to the present invention in more detail.

Installation of the joining plate 101 protruding on the end surface of the side connected to each other on the bridge (P) and the settlement of the secondary tension member 133 to be tensioned in consideration of the increase in load by the construction stage of the girders (G1, G2) connected to each other To extend the end block 111 formed at one end of the girder to form a groove (g) for connecting and fixing the tension member between the bracket portion 131 and the end block 111 and both girders therein The girder (G1, G2) in which the curved sheath 134 is disposed on the piers (P) so that the secondary tension member (133) of (G1, G2) can be bent upwardly is connected to the junction plate (101). Connected to each other and the second tension member 133 inside the curved sheath 134 is arranged to pass through the continuous point to connect the girders (G1, G2) to each other, then tension is fixed and the junction plate 101 is buried and girder ( Placing cross beams (14) concrete connecting G1, G2 to each other in the transverse direction at the same time with slab (15) concrete Is the embodied a structure.

The secondary tension member 133 is connected to the secondary tension member disposed on one of the girders (G1) hypothesized on the bridge (P), one end is connected through a coupler known in the art and passed through the continuous point, the other end of the other It is settled after tension at the other connection point side of the girder G2. Thus, the continuous point portion is strengthened by the bonding plate 101 and is continuous through the secondary tension member 133, thereby ensuring the safety of the continuous point portion. In addition, the secondary tension member 133 is connected to each other by a variety of couplers known in the art, so that it is connected to one across the foreground. The secondary tension member 133 is disposed in a shape corresponding to the direction of the bending moment acting on the continuous bridge and resists the loads (additional fixed load, live load) after girder continuity and structural change in the continuous bridge in the simple bridge. By introducing the compressive stress at the continuous point portion, it is possible to structurally respond to the continuous point portion moment generated by the design load.

Hereinafter, the construction method of the structure of the continuous point portion of the abdominal corrugated steel sheet PS girder according to the present invention will be described with reference to FIGS.

Figure 2 is a flow chart showing a method of construction of the continuous point portion of the abdominal corrugated steel sheet PS girder according to the present invention and Figure 3 is a side view schematically showing the construction sequence.

First, the abdominal corrugated steel sheet PS girder is manufactured at the factory. The abdominal corrugated steel sheet CS girder is a lightweight corrugated steel sheet which is replaced by the abdominal member. The bending moment is the upper and lower concrete flanges and the shear force is the corrugated steel sheet. The cross-sectional shape may be an I-shape as shown in FIG. 4 (a) or a T-shape integrating the slab as shown in (b). At this time, the primary tension material is in a tensioned state to prevent sagging and cracking due to the weight of the girder during the construction.

The girders can be made in two forms: end girders, one end supported by the alternator and the other end supported by the piers, and the center girders, both ends supported by the piers.

As shown in Fig. 5, the end girders have shapes similar to each other, that is, the end point portion and the continuous point portion. Both ends are formed with an end block 111 for fixing the primary tension member 132 and a bracket portion 131 for fixing the secondary tension member 133. However, unlike the end point portion, the end block 111 further extends toward the bracket portion 131 to form a groove, and the end block 111 is provided with a sheath installed inside the other girder connected to the pier. The curved sheath 134 is embedded so as to be in communication with it. The groove g formed between the bracket portion 131 and the end block 111 at the continuous point portion is used for the connection of the secondary tension member 133 and is filled by filling mortar or concrete when the fixing is completed.

As shown in FIG. 6, the center girder has one end portion connected to the end girder and an end block 111 for fixing the primary tension member 132, and the other end portion connected to the other center girder is an end girder. Has the same shape as the end of the side connected with the central girders. The sheath 135 for the placement of the secondary tension member 133 in the center girder is curved for the insertion of the secondary tension member 133 extending from the end girder inside the end block 111 on the side connected with the end girder. It has a curved shape that is in symmetry with each other while communicating with the sheath and extends along the lower flange concrete to have a shape extending to the bracket portion 131 of the other end.

Next, hypothesize a girder. That is, as shown in (a) of FIG. 3, the end girders G1 are hypothesized, the center girders G2 are hypothesized, and the end girders G1 and the center girders G2 protrude from the ends of the girders and are exposed. After the plate 101 is connected and hardened, as shown in FIG. 3B, the end sheath G1 and the center girder G2 are buried in the continuous point side end portion of the end girder G1 ( 134) and through the sheath 135 embedded in the center girder G2, penetrating the continuous point portion and one end to the secondary tension member 133 disposed in the girder G1 already hypothesized at the continuous point portion in this field. The other end is connected via a known coupler and the other ends are continuous with each other via a secondary tension member 133 which is tension-fixed to the bracket portion 131 at the other continuous point of the center girder G2. In the same way, the center girders are connected to each other by connecting plates, and then stiffened with each other. In this case, in the case of the end girders (G1), the secondary tension member 133 may be pre-tensioned before the hypothesis, or may be tensioned before the girder is continued after the hypothesis.

Finally, as shown in (c) of FIG. 3, the junction plate 101 is embedded and the cross beam 14 concrete connecting the girder to each other in the transverse direction is poured simultaneously with the slab 15 concrete to complete the bridge.

As described above, the continuous point portion of the abdominal corrugated steel sheet PS girder according to the present invention is disposed to penetrate through the continuous point portion of the tensioned secondary tension member in consideration of the increase in load for each construction stage, and tensions to continually girder the end and the other portion. It is a structure that is hypothesized toward the end, unlike the existing, it is not necessary to arrange additional tension material at the continuous point, and there is no need to form concrete blocks (cross section enlargement) for placing and fixing the additional tension material, which improves the workability of the field. There is an advantage that the appearance of the continuous point portion is beautiful.

On the other hand, in the present invention, the girder has been described as hypothesizing from the end toward the center and the other end, it can be hypothesized while continuing from the center toward both ends in consideration of the construction environment of the site.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention . The invention is not limited by these variations and modifications, but is only limited by the scope of the appended claims.

101: laminate
111: end block
131: bracket portion
132: primary tension material
133: secondary tension material
134: curved sheath
135: sheath
14: crossbeam
15: slab

Claims (2)

In the continuous point structure of the abdominal corrugated sheet CS girder having a secondary tension member in which the primary tension member is tensioned to control the cracking and deflection due to the weight of the girder during construction, and is placed and tensioned in consideration of the increase in load for each construction stage.
The exposed laminated plates protruding from the end faces of the sides connected to each other on the pier are connected to each other and are arranged to extend through the continuous point portion at one end of the girder to the end portion of the other continuous point of the other girder so that one end of the A continuous point structure of an abdominal corrugated sheet CS girder, connected to a secondary tension member, the other end of which is continuous with each other through a secondary tension member that is tension-settled at another continuous point portion of the other girder. In the method of constructing the continuous point of the abdominal corrugated steel sheet PS girder having a secondary tension member in which the primary tension member is tensioned to control cracking and sagging due to the weight of the girder during the construction and is placed and tensioned in consideration of the increase in load for each construction stage. ,
(a) manufacturing an abdominal corrugated steel sheet PS girder in two forms: an end girder having one end supported by a shift and the other end supported by a pier, and a central girder having both ends supported by a pier;
(b) the construction of the end girders, the construction of the center girders, and the end girders and the center girders protruding from the ends of the girders and stiffening by connecting the exposed junction plates, and the end girders and the center girders are arranged to penetrate the continuous point. A second tension member connected to the secondary tension member disposed at the end girder and the other end being continuous with each other through the secondary tension member which is tension-settled at another continuous point of the center girder;
(c) sequentially connecting the center girders with a bonding plate and stiffening each other, and then repeating the process using a secondary tension member and continuing the middle girders and the end girders as in step (b), thereby continuing all the girders; And
(d) a method of constructing a continuous point portion of an abdominal corrugated steel sheet PS girder, comprising the step of: integrating crossbeam concrete embedded with slab concrete at the same time, in which a laminated plate is embedded and connects the girder to each other in a lateral direction.

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