KR101026949B1 - Segment of precast concrete girder - Google Patents

Abstract

PURPOSE: A segment for a precast concrete girder is provided to ensure stable coupling with another segment through a junction part including a fixing ring and a connection part including steel bars. CONSTITUTION: A segment for a precast concrete girder comprises a connection part on an end thereof and a junction part on the other end. The connection part comprises a plurality of steel bars(230) buried in the longitudinal direction and an annular anchor groove on the protruding part of each steel bar. The junction part has grooves for receiving the steel bars and fixing rings are inserted in the grooves. The steel bars are inserted in the grooves of the junction part so that the fixing rings are contacted and fixed in the anchor grooves of the steel bars.

Description

Segment of precast concrete girder {SEGMENT OF PRECAST CONCRETE GIRDER}

The present invention relates to a precast concrete girder segment, and more particularly, to a segment of a precast concrete girder structurally improved by improving the connection between the connection and the joint of the precast concrete girder segment.

The precast segment construction method is a method of completing a structure of a bridge in which a segment having a predetermined length is manufactured in a factory and transported to a construction site, and then bonded to each other and installed by tensioning longitudinal tension members.

The method of joining these segments is to place the segments at regular intervals in the field, connect the reinforcing bars, and then cast the concrete or mortar and join them. Contact joining methods for introducing, adhering and bonding are generally used.

However, in the field pour joining method, since the concrete, mortar, grout, etc. are placed in the joint, the shape of the ends of the segments to be joined does not need to match, but the work of reinforcing the steel between the segments to be joined and the concrete pour and curing Since this is required, the work is complicated and the air is long.

On the other hand, the contact bonding method is a method of joining a segment with a pre-fabricated shear key by simply attaching it together without the process of placing and curing concrete in the field, thus making the girder significantly shorter than the field casting method. This is economical in terms of cost. In addition, there is a problem that the shape of the end of the joint surface should match each other, but there is no difficulty in manufacturing because it can have a high precision in the characteristics of the factory manufacturing. However, because the reinforcing bars are not connected at the joints, the concrete joint surface should be closely adhered to secure the joint surface. Therefore, separate tension members are used to bring the joint surface into close contact, thus adding tension work.

Hereinafter, the conventional prestressed concrete girder related technology using a contact bonding method will be described.

Korean Patent Registration No. 527797 (name of the invention, "The method of constructing a PS G girder bridge using a precast segment") discloses a construction method of a PSC girder bridge that can easily connect a divided precast segment. 1A to 1E, FIG. 1A shows an end precast segment of the precast segment 10, and FIG. 1B shows a center precast segment installed between the end precast segments, and FIG. 1C. Is a cutting surface of the connection junction 20 of the precast segment, Figure 1d shows a bonding state of the precast segmenter 10c and the precast segment 10d, Figure 1e is a fixing device installed in the junction of the segments The installation cross section of 50 is shown.

As shown in Figure 1a to 1e, the end precast segment (10a) is formed in the left end of the anchorage to install the PC strands 30 after tension, the right end is a block-out portion 22 on both sides of the segment And a total of three surfaces on the upper surface. Accordingly, the end precast segment 10a and the center precast segment 10b are structurally connected by the tightening force of the fixing device 50 including the steel bar installed over three surfaces. The fixing device 50 inserts a steel rod 56 having a screwed portion at an end thereof into an insertion tube 52 inserted into a fixing hole positioned to face each other, and between the insertion tube 52 and the steel bar 56. After filling the filler 54, the fastening nut 58 is used to tighten the steel bar 56 to bond the connection joints 20 of both segments.

However, the contact bonding method as described above requires a process of using a steel rod to connect the segments in the use of a fixing device, and tightening using fastening nuts at both ends to fasten them. Rather than the completion of the fastening has a disadvantage in the process of filling a separate filler into the interior of the insertion tube into which the steel rod is inserted.

Korean Patent Registration No. 592262 (named "Segment Jointing Method of Segmented Prestressed Concrete Girder") relates to segmented jointing method of segmented prestressed concrete girder, which is a segmented prestressed concrete girder with improved structural weakness of the segment connection. A segment joint method is disclosed. Referring to the disclosure with reference to FIGS. 2A and 2B, FIG. 2A is a perspective view of a major portion of a segment manufactured in a form in which a tensile rebar is exposed to a portion of a connection portion, and FIG. 2B is a connection portion of the segments shown in FIG. 2A. A front view of the is shown.

As shown in FIGS. 2A and 2B, at the end of each segment 100, a concrete crushing portion 110 is provided at the end of each segment 100 so that the end of the reinforcing rod 120 embedded in the lower portion of the segment 100 is exposed to the outside. Segments are fabricated to form. When the segment is manufactured, the segments 100 are closely contacted by a contact bonding method so that the exposed rebars 120 face each other, and the exposed rebars are connected to each other. In order to connect the exposed rebar, the rebar coupler 130 is used. When the exposed reinforcing bar is connected, grind unconcrete concrete where no concrete in the segment has been poured with non-concrete concrete or grout material.

When the reinforcing bar is coupled in the above manner, there is an effect that the structural weakness due to the disconnection of the reinforcing bar of the connection portion is improved. However, there is a disadvantage in that the construction is complicated and the construction period is long because it is necessary to connect the exposed reinforcing bars using rebar couplers and the like, and grouting works with separate concrete.

An object of the present invention is to solve the problems as described above, and to improve the stability of the vulnerable connection when joining precast concrete girder segments.

Another object of the present invention is to fabricate a structurally simplified segment by making it possible to connect components formed at each end of the segments without adding another component for connection between the segments to improve the stability of the connecting portion. By doing so, the purpose of the girder can be manufactured more economically.

In order to achieve the above object, the present invention, in the segment for precast concrete girder, the segment includes a cylindrical rod formed in a plurality of protruding at one end, a predetermined thickness and a protruding portion of the rod A connection portion in which an annular fixing key groove having a width is formed; And

The other end is formed with a cylindrical inner groove having a constant radius corresponding to the steel bar so that the steel bar protruding on the connection portion of the other precast segment is inserted, the fixing ring is inserted into the inner groove , Junctions,

The steel rod is inserted into a cylindrical inner groove of the joint to provide a segment for precast concrete girder, in which the fixing ring and the fixing rod groove on the steel rod are closely fixed to each other.

In addition, in the above it is characterized in that the connection portion is formed at the other end of the joint portion at one end in the segment for precast concrete girder, it is possible even if only one of the connection portion or the connection portion is formed due to the characteristics of the segment.

According to another embodiment of the present invention, in the segment for precast concrete girder, one end of the segment is formed with a connection portion for connection with the other segment, the connection portion

A plurality of protrusions formed at one end, and a steel rod having an annular fixing key groove formed at the protruding portion; And

A segment for precast concrete girder is provided at the center of the end, which includes a joining key and a joining groove having a predetermined shape arranged for joining with another segment.

According to another embodiment of the present invention, in the segment for precast concrete girder, one end of the segment is formed with a connection portion for connection with the other segment, and the connection portion

At one end, a cylindrical groove is formed so that a steel bar protruding from the connection portion of another precast segment is inserted and connected, and a fixing ring is inserted into the inner groove, and the steel bar is formed by the fixing ring. It is characterized by providing a segment for precast concrete girder, which is tightly fixed.

The segment of the precast concrete girder according to the present invention is in close contact with each other by closely coupling the connection portion including a joint including a fixing ring at the end of the segments that are in close contact with each other and a connecting portion including a steel bar formed with a groove for the fixing key is formed to protrude. It can be combined, and also because the groove formed on the fixed ring and the steel rod is fixedly coupled to bring the stability of the connection portion.

In addition, it is possible to omit the work of using a separate connecting member or grouting with concrete pouring or grouting material in order to combine the two segments of the prior art can bring the effect of shortening the air with a more economical process.

Figures 1a to 1e shows an example of the adhesive bonding method according to the prior art, Figure 1a is an end precast segment of the precast segment 10, Figure 1b is a central portion provided between the end precast segments 1C shows a cutaway view of the connection junction 20 of the precast segment, FIG. 1D shows an excerpt of the junction of the precast segmenter 10c and the precast segment 10d, and FIG. The installation cross section of the fixing device 50 installed in the junction part of a segment is shown.
Figures 2a and 2b shows another example of the adhesive bonding method according to the prior art, Figure 2a is a perspective view of the main portion of the segment made in the form of the tensile bar exposed to a portion of the connection, Figure 2b The front view of the connection part of the segments shown in 2a is shown.
Figures 3a to 3c shows a segment of a precast concrete girder according to the invention, Figure 3a shows a state in which the segments are joined, Figure 3b shows the end of the joint of the segment, Figure 3c The other end connected to one end of a junction part is shown.
Figure 4a shows the retaining ring, Figure 4b shows the case in which the retaining ring is mounted in the inner groove of the cylindrical shape, Figure 4c shows a side view of the joint in which the retaining ring is inserted, Figure 4d 4A is a side view illustrating a state in which a portion including the fixing ring of FIG. 4C and a portion including the steel rod shaft of FIG. 4D are coupled to each other.
5a and 5b show another embodiment of a joint of a segment of a precast concrete girder according to the present invention.
Figure 6 shows an example of secondary bonding using a tension material after joining the segments of the precast concrete girder according to the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

As shown in Figure 3a, the precast concrete girder according to the invention is made by joining several segments. Each segment 200 is manufactured in a factory or workshop as described above, and then moved to the site to join the joints and joints of each segment to each other, and then tension the tension member in the longitudinal direction of the girder. . A feature of the present invention is that the connection portion 210 formed at one end of the segment and the junction portion 220 formed at the other end of the segment corresponding to the connection portion 210 so that the segments 200 can be closely connected to each other and their The detailed structure, which will be described below with reference to the drawings showing the detailed structure of the connection portion and the junction of the segment.

Figure 3b shows a connection formed at one end of the segment, Figure 3c shows a connection formed at the other end corresponding to one end of the connection. As shown in FIG. 3B, a plurality of steel bars 230 embedded in the longitudinal direction of the segment are formed to protrude from the connecting portion at one end of the segment to closely contact the joint portion of the other segment. The length and thickness of steel bars and their number are not particularly specified. The length, thickness and number can be determined by considering various factors such as the length and size of the finished concrete girder to be finally joined or the length and weight of the segments. In the exemplary embodiment according to the present invention, in the case of FIG. 3B, four steel rods are symmetrically installed on both sides of the upper and lower sides of the segment, and symmetrically on both sides of the lower center.

In addition, in another embodiment of FIG. 5A, four symmetrical installations are provided on both sides of the center of the upper and lower portions of the segment. In FIG. The installation of the dogs is shown as an example. In FIGS. 5A and 5B, the number of steel bars is differently formed in segments having the same size, but in these examples, the same effect can be obtained by adjusting the number, size, and thickness of steel bars. The number, size and thickness of these steel rods can be adjusted in various ways to those skilled in the art.

As described above, a suitable number of steel bars protrude from the connection portion of one end of the segment to suit the purpose, and as shown in FIG. A junction portion 220 including a groove having a shape corresponding to is formed. In addition, as shown in Figs. 3B and 3C, a joint key and a joining groove may be provided at the center of the joint and the end of the joint to be used for joining the segments.

In this embodiment, since a cylindrical steel bar is used, even in the case of a plurality of grooves formed in the joint portion, the circular steel bar has a constant radius and depth so as to correspond to the length and radius of the steel bar in a circular shape. In addition, in the connecting portion at one end of the segment in which the steel bar is formed to protrude, the steel bar is formed on the predetermined convex portion 235 in the block shape, and also in the case of the groove formed in the joining portion, the steel bar is corresponding to the convex portion described above. Grooves are formed in recesses 240 of corresponding sizes to be matched.

The formation of each convex portion and concave portion at the position where the steel bar and the groove are formed is for accurate and easy registration when the segments are bonded. One end of the segment is not installed separately according to the purpose of use in the field. It may be formed by only the junction comprising a steel bar and a groove corresponding to the connection portion of.

The segment according to the present invention is a groove formed in the joint so that these segments can be tightly fixed to each other in the steel rod formed in the connecting portion when the segments are bonded to each other by contact with each other and the junction where the steel rod is inserted to form a groove Has a separate fixing ring at a predetermined depth, and the steel bar protruding from the connecting portion has a predetermined fixing key groove formed in an annular shape by matching with the fixing ring. The fixing key groove is formed to have a predetermined thickness and depth in consideration of the size of the fixing ring so that the fixing ring can be partially inserted and fixed. The configuration of the fixing ring formed in the joint portion and the fixing key groove formed in the axial direction in the steel bar of the connecting portion matched with the fixing ring will be described with reference to FIGS. 4A to 4D.

First, as shown in Figs. 4a and 4b, the fixing ring has an annular annular shape, the bottom of which is open, and the end of the bottom has a protruding shape. In the present embodiment, the lower end has an annular ring shape, but is not particularly limited to this shape, and may be applied in various forms to conform to the shape of the steel bar protruding from the connection part. 4B illustrates a case in which the fixing ring is mounted in a cylindrical inner groove. FIG. 4C shows a side view of the fixing ring shown in FIG. 4A installed in the recess 240 of the joint of the segment end.

4D is a view showing details of the steel bar 230 protruding at the connection portion of one end of the segment. The protruding portion of the steel bar 230 is formed with a fixing key groove 250 for matching with the fixing ring 245 mentioned above. The fixing key groove 250 is formed to have a predetermined thickness and depth in consideration of the size of the fixing ring 245 and the size of the segment such that the fixing ring is partially inserted and fixed. Also, as shown, the steel rod is cylindrical and its front portion may be tapered.

4C and 4D illustrate an example in which one fixing ring 245 is formed at the joint at one end of the segment and one fixing key groove 250 is formed at the steel bar 230 at the connection part at the other end. Therefore, it is also possible to provide two or more fixing rings on the same axis in the cylinder-shaped groove into which the fixing rings are inserted. Although not shown in the drawings, a plurality of fixing key grooves 250 formed in the steel bar protruding from the connection part corresponding to the joint part including the fixing ring are arranged at the same interval as the fixing ring interval according to the number of the fixing rings 245. Can be formed.

4E shows a fixing key groove 250 in a segment including a joint portion in which a fixing ring 245 is inserted into a cylindrical groove formed inside the one end and a steel bar 230 protruding outside the one end. A state in which the segment including the formed connection portion is a chopped junction is shown. The inside of the cylinder is filled with a filler so that no empty space is formed therein.

When the steel bar 230 protruding from the connecting portion of the segment is inserted through the cylindrical groove formed in the joint portion of the segment, and is tightly connected to the fixing key groove formed on the steel bar 230 through the fastening with the fixing ring 245. The adhesion of the segment is completed. The adhesion is made and finally the girder is completed, and the prestress is introduced by primarily tensioning the PC strand installed in the interior of the connected precast concrete girder.

After that, as shown in Fig. 6, after mounting the girders to the alternating or pier, the bottom plate is placed on the upper part of the girder and cured to increase the stability of the girder joints, connections and joints, and to consider the fixed load and the bending load of the girder. The secondary prestress is introduced using the PC strand 260 additionally installed at the girder connection.

The invention may be implemented in various ways. In addition, the previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the scope or spirit of the invention. Thus, the present invention is not intended to be limited to the embodiments described herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

10, 100, 200 ... segments
210 ... connections 220 ... connections
230 ... steel bar 235 ... convex
240 ... recess 245 ... retaining ring
250 ... settling groove 260 ... PC strand

Claims (7)

In the segment for precast concrete girder, the segment is
One end portion includes a plurality of protruding cylindrical rods, the connection portion is formed in the protruding portion of the rod is formed an annular fixing key groove having a predetermined thickness and depth; And
The other end is formed with a cylindrical inner groove having a constant radius corresponding to the steel bar so that the steel bar protruding on the connection portion of the other precast segment is inserted, the fixing ring is inserted into the inner groove , Junctions,
Segment for precast concrete girder, characterized in that the steel rod is inserted into the inner groove of the cylindrical portion of the joint portion closely fixed to the fixing ring and the fixing fixture groove on the steel rod. delete delete The segment for precast concrete girder according to claim 1, wherein the joining part further comprises a plurality of fixing rings which are installed coaxially in the cylinder-shaped groove. 2. The segment for precast concrete girder according to claim 1, wherein the steel rod further comprises a plurality of fixing key grooves on the same axis. 5. The segment for precast concrete girder according to claim 4, further comprising a filler inside the cylinder. The segment for precast concrete girder according to claim 1, wherein the joining portion includes a joining key having a predetermined shape and joining grooves provided for joining with other segments.

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