KR101042945B1 - Tendon Anchoring Apparatus and Connecting Structure for Precast Concrete Box Culvert - Google Patents

Abstract

When connecting the PC culvert group and another PC culvert group by using the two-stage integrated bi-directional wire fixing apparatus in which the end wedge for the end point of the steel wire and the end wedge for the point fixing are arranged in parallel in one wedge cone body As the tension direction of the steel wire which is tensioned as close as possible to the center line of the wedge cone body is minimized, the wedge cone body is tensioned by minimizing the acting load and rotational load on the wedge cone body by the tension force of the steel wires which act in opposite directions. Two-stage integrated bi-directional wire fixing device that can prevent the phenomenon of protruding in the direction, and can strengthen the adhesion by maintaining the tension direction of the steel wire acting between one PC culvert group and another PC culvert group in the same line as possible; Disclosed is a precast concrete box culvert connection structure using the same.

The present invention provides an end point fixing hole in which an end point wedge hole whose cross section is gradually enlarged is formed in the first center axis line, and a start point wedge hole in which the cross section is gradually enlarged in a direction opposite to the end point wedge hole is formed in the second center axis line. And a wedge-con body in which the viewpoint fixing holes are arranged in parallel, an endpoint wedge provided in the endpoint wedge, and a viewpoint wedge provided in the viewpoint wedge hole, wherein the second central axis of the viewpoint fixing hole is a centerline of the wedge cone body. The first center axis of the end point fixing hole is formed to be inclined with respect to the two center axis lines of the start point fixing hole so that one side is gradually close to the center line of the wedge cone body.

Description

Two-stage one-way bidirectional steel wire fixing device and precast concrete box culvert connection structure using it {Tendon Anchoring Apparatus and Connecting Structure for Precast Concrete Box Culvert}

The present invention is a two-stage integrated bi-directional steel wire fixing device and a precast concrete box culvert using the same to assemble a prefabricated PC culvert used in facilities such as water and sewage, electric power, communication, co-communication strongly buried in steel wire Hereinafter, referred to as PC culvert.) Relates to a connection structure.

In general, the assembled PC culverts have very weak connection strengths (adhesive forces), so that when the ground is soft and subjected to up, down, left and right rotational loads due to partial settlement and earthquakes, the connection areas between the assembled PC culverts are opened. There is a problem that adversely affects the performance of the function, such as lowering the watertightness, and for this purpose, a connection structure for strongly contacting the connection portion of the PC culvert using a steel wire and a wire fixing device is known.

For example, Korean Patent No. 10-0692913 discloses a PC culvert connection structure using the steel wire and the steel wire fixing device.

1A to 1E illustrate a process of connecting a plurality of PC culverts using a steel wire and a steel wire fixing device. First, as shown in FIGS. 1A and 1B, first to third PCs to be connected Positioning the culverts (201, 202, 203), the steel wire 11 is inserted through the steel wire through hole (112).

The viewpoint end (left end of the figure) of the steel wire 11 is fixed to the viewpoint surface of the 1st PC culvert 201, and the viewpoint steel wire fixing apparatus was formed in the recessed part 110 formed in the cross section of the 1st PC culvert 201. The wedge cone member 602 of 600 is positioned, the wedge 603 is bitten at the end point of the steel wire 11, and the wedge 603 is pulled by pulling the steel wire 11 (in the direction of arrow b in FIG. 1B). The steel wire 11 is inserted into the wedge hole of the wedge cone member 602 while biting the steel wire 11 to fix the steel wire 11.

The end end (right end of the figure) of the steel wire 11 is exposed to the end face of the third PC culvert 203. The concave portion 110 formed on the end surface of the third PC culvert 203 is provided with a two-way steel wire fixing device 100, specifically, the wedge-con member 102 and the wedge for the end point fixing of the two-way steel wire fixing device 100 103 is used, and the steel wire 11 exposed to the end face of the third PC culvert 203 is bitten by the wedge 103.

Subsequently, the steel wire 11 bitten by the wedge 103 is tensioned by the hydraulic tension device 400 so that the wedge 103 is inserted into the wedge hole 104 of the wedge cone member 102 so that the steel wire 11 is fixed. That is, when the hydraulic tension device 400 pulls and releases the steel wire 11 in the direction of the arrow b of FIG. 1B, the wedge 103 receives the steel wire 11 with the wedge 103 with the repulsive force caused by the tension of the steel wire 11. Since the steel wire 11 is brought into close contact with the wedge hole of the member 102 and the steel wire 11 contracts, the wedge 103 is further pulled in the direction of the arrow a, so the steel wire 11 is firmly fixed so that the first to third PC culverts 201, 202, 203 It is connected in a state of being strongly in contact by the contracting force of the steel wire (11).

Subsequently, as shown in FIG. 1C, the end of the end point of the steel wire 11 is cut, and one side of the coupling member 101 is integrated with the wedge-con member 102 on which the steel wire 11 is fixed. As shown in 1d, the wedge-cone member 102 'for fixing the viewpoint is similarly screwed to the other side of the coupling member 101 to be integrated.

Subsequently, the fourth to sixth PC culverts 204, 205, and 206 to be connected successively are positioned after the third PC culvert 203, and the steel wires pass through the steel wire through holes 112 'of the fourth to sixth PC culverts 204, 205, and 206. Insert (11 ').

The end of the steel wire 11 'inserted into the steel wire passing hole 112' and projecting to the viewpoint surface of the fourth PC culvert 204 is a bidirectional steel wire fixing device that is already installed in the third PC culvert 203 ( It inserts into the wedge hole 104 'of the wedge-cone member 102' of the viewpoint fixing of 100, and is bitten by the wedge 103 '.

When the end of the newly inserted steel wire 11 ', that is, the steel wire 11' protruding out of the end surface of the sixth PC culvert 206, as described above, the tension with the hydraulic tension device 400, FIG. As shown in 1e, the steel wire 11 'is pulled in the direction of the arrow b while the steel wire 11' is attached to the wedge-cone member 102 'installed at the viewpoint of the fourth PC culvert 204. Settles down. As such, by using the bidirectional steel wire fixing device 100, the PC culvert can be continuously connected.

However, as described above, the PC culvert connection structure using the bidirectional steel wire fixing device 100 includes a wedge-con member 102 and a wedge 103 for fixing a viewpoint and a wedge-con member 102 'and a wedge (for endpoint fixing). 103 ') is arranged in series, the terminal end of the steel wire W1 is fixed to the wedge-con member 102 and the wedge 103 for end point fixing, and cut | disconnected, and the end point through the cuffing member 101 After combining the fixing wedge-con member 102 and the viewpoint fixing wedge-con member 102 ', the end of the viewpoint of the steel wire W2 must be fixed to the viewpoint fixing wedge-con member 102' and the wedge 103 '. Therefore, there was a disadvantage that the process of connecting the PC culvert by fixing the steel wire is very complicated.

In order to solve the above problem, for example, the Republic of Korea Patent No. 10-0872197, as shown in Figure 2, the end point fixing holes each formed with wedge holes 302a, 302b in one wedge cone member 301 And erecting holes in parallel, and the wedges 303a and 303b are provided in the wedge holes 302a and 302b of the end point fixing holes and the point fixing holes, respectively. Disclosed is a two-stage integrated bidirectional steel wire fixing device for use.

That is, the PC culvert is assembled using two types of two-piece bidirectional wire fixing device 300 and two kinds of PC culvert groups 310 and 410 each having first and second steel wire insertion holes 320 and 420 formed at different positions. As the PC culvert group 310 inserts the steel wire W1 into the first steel wire insertion hole 320, the terminal end of the steel wire W1 is fixed to the terminal fixing wedge 303a of the steel wire fixing device 300. To settle in, the PC culvert group 410 is connected to the steel wire (W2) by inserting the second steel wire insertion hole 420, the end of the steel wire (W2) of the steel wire fixing device 300 for fixing the wedge It is supposed to be fixed at 303b.

Therefore, the end point fixing wedge 303a and the point fixation wedge 303b are integrally formed in parallel with each other, so that the steel wire can be pushed in and tensioned without disassembly and assembly. The number can be significantly reduced to increase economics.

In addition, since the wedges 303a and 303b for the end point fixing and the point fixation are arranged in parallel in one wedge-con member 301, the depth of the accommodating groove may be shallower than that of the conventional accommodating groove, and culvert molding is easy. Do.

However, the PC culvert connection structure using the two-stage integrated bi-directional wire fixing device 300, in connecting the PC culvert group 310 and the PC culvert group 410 in both sides of the wedge cone member 301 Since the tension direction of the tensioned steel wires W1 and W2 acts in the respective horizontal directions X1-X1 and X2-X2 at positions spaced apart from the centerline XX of the wedge-con member 301, the PC culvert group When the wire W2 bitten by the point fixation wedge 303b is tensioned at the end, the contracting force of the wire W1 acting in opposite directions by being bitten by the point fixation wedge 303a (arrow a in FIG. 2) Due to the tension force of the steel wire (W2) (arrow b in Fig. 2) the uneven load and rotational load acts so that the wedge-con member 301 does not stand the tension force and protrudes in the tension direction, to prevent this phenomenon In order to be equipped with a complex structure to prevent protrusions, PC culvert group 310 and PC arm It did not receive the same tensile force line between the groups (420), so there is a problem that results from the adhesion is weakened.

Further, after the hydraulic tension device is provided at the end point of the steel wire W1 and the steel wire is tensioned and fixed to the wedge 303a for the end point fixing, the steel wire W1 is formed in the recess 401 on the PC culvert group 410 side. Since the end of the end must be cut so that the end of the end does not come into contact with the steel wire, the steel wire fixing operation is cumbersome, and when the steel wire W2 is fixed to the time fixing wedge 303b, the starting point of the steel wire W2 is fixed to the viewpoint. When the length that is inserted through the dragon wedge 303b is short and the wedge 303b does not firmly adhere to the steel wire W2 when the steel wire W2 is tensioned, the steel wire W2 is attached to the viewpoint fixing wedge 303b. As it is not settled out, it is pulled out as it is, and there is a trouble in the assembly process that requires retrying the settling work.

The present invention is to solve the conventional problems as described above, the purpose of which is a two-stage integrated bidirectional steel wire fixed in which the end wedge for the end point fixing of the steel wire and the time point wedge for the point fixation are arranged in one wedge cone body In connecting the PC culvert group with another PC culvert using the device, the tension direction of the wires tensioned on both sides is as close as possible to the center line of the wedge cone body. By minimizing the acting load and rotational load, the wedge-con body can be prevented from protruding in the tension direction, and the tension direction of the steel wire acting between one PC culvert group and another PC culvert group is the same. Two-stage integrated bi-directional steel wire fixing device that can maintain the shipboard and enhance the adhesion, and precast concrete box using the same To provide a culvert connection structure.

In addition, in the present invention, the end point of the steel wire is tensioned and fixed to the end point fixing wedge, and thus the end point need not be cut off, and when the steel wire is fixed to the start point fixing wedge, the start point of the steel wire is the start point fixing wedge. Two-stage integrated bi-directional steel wire fixing to improve workability by eliminating the hassle in the assembly process by allowing the wedge to firmly adhere to the steel wire when the wire is tensioned with one insertion work by penetrating and inserting it sufficiently. To provide a device and a precast concrete box culvert connection structure.

The present invention for achieving the above object, the end point fixing hole formed in the end point wedge hole is gradually enlarged in the first center axis, and the time point wedge hole is gradually enlarged in the opposite direction with respect to the end point wedge hole In the two-stage integrated bidirectional steel wire fixing device having a wedge cone body formed in parallel with the viewpoint fixing holes formed in the second center axis, an end wedge provided in the end wedge hole, and a viewpoint wedge provided in the viewpoint wedge hole. The second central axis of the viewpoint fixing hole is formed in parallel with the center line of the wedge cone body, and the first central axis of the endpoint fixing hole has one side of the viewpoint fixing hole so that the interval with the center line of the wedge cone body gradually approaches. It is characterized by a two-stage integrated bidirectional steel wire fixing device that is formed to be inclined with respect to two central axes.

In addition, the wedgecon body is formed of a rectangular body portion having a rectangular cross-sectional structure of a long vertical length and a short horizontal length, a circular protrusion having a diameter larger than the horizontal length formed on one end surface of the rectangular body portion It is characterized by a two-stage integrated bidirectional steel wire fixing device configured to protrude from both sides of the rectangular body portion at both edges of the edge.

The present invention also provides an end point fixing hole in which an end point wedge hole whose cross section is gradually enlarged is formed in the first center axis line, and a start point wedge hole in which the cross section is gradually enlarged in a direction opposite to the end point wedge hole is formed in the second center axis line. A two-stage integrated bi-directional steel wire fixing device having a wedge cone body having one viewpoint fixing hole disposed in parallel, an endpoint wedge provided in the endpoint wedge hole, and a viewpoint wedge installed in the viewpoint wedge hole, and the endpoint of a plurality of PC culvert groups. It is embedded in the surface of each one of the two-stage one-piece bidirectional steel wire fixing device and the end wedge of the two-stage one-piece bidirectional steel wire fixing device adjacent to each other by tensioning and fixing with a steel wire to connect a plurality of PC culvert groups close to each other. In the precast concrete box culvert connection structure, the second central axis of the viewpoint fixing hole formed in the two-stage integrated bidirectional steel wire fixing device is a wedge. It is formed parallel to the center line of the cone body, the first center axis of the end point fixing hole is formed to be inclined so that one side is gradually closer to the center line of the wedge cone body, the starting point end of the steel wire is embedded in one PC culvert group Settles at the starting wedge of the fixed steel wire fixing device, and the end of the steel wire is fixed to the ending wedge of the steel wire fixing device embedded in the other PC culvert group, thereby acting as both wedge cone bodies of the wire fixing device embedded in each PC culvert group. The precast concrete box culvert connection structure is constructed so that the tension direction of the steel wire acts close to the center line of the wedge body.

According to the two-stage integrated bidirectional steel wire fixing device and the PC culvert connection structure using the same according to the present invention having the above-described configuration, the terminal fixing hole with respect to the center axis of the viewpoint fixing hole formed in the wedge cone body of the two-stage integrated bidirectional steel wire fixing device As the center axis of is formed to be inclined so that the interval between the end point fixing hole and the point fixing hole gradually becomes narrow in the direction opposite to the direction of tensioning the steel wire, when the PC culvert group and the PC culvert group are connected to each other, When settled at the end wedge of the end point fixing hole, and the start end of the steel wire was settled at the end point wedge of the start point fixing hole, the direction of tension of the steel wires acting on both sides of the wedge body is inclined direction close to the center line of the wedge body. Since the tension direction of the steel wire and the center line of the wedge body are as close to each other as possible, this results in a comfortable load on the wedge body. By minimizing the effect of the rotational load, the wedge-con body can be prevented from protruding in the tension direction, and the tension direction of the steel wire acting between one PC culvert group and another PC culvert group is kept as straight as possible. The adhesion of the PC culvert is strengthened.

In addition, the present invention, the end of the wire can be inserted into the wire through hole of the PC culvert even after installing the hydraulic tension device in the end of the steel wire to tension the steel wire to settle in the end wedge need to cut the end of the steel wire When the steel wire is settled in the viewpoint wedge, the end of the steel wire penetrates the viewpoint wedge sufficiently into the line through hole, so that the steel wire can be firmly adhered to the viewpoint wedge by one wire insertion operation. The hassle is eliminated and workability is improved.

Hereinafter, a two-stage integrated bidirectional steel wire fixing apparatus and a PC culvert connection structure using the same according to the present invention will be described in detail with reference to the accompanying drawings. 3 and 4 are a perspective view and a cross-sectional view showing a preferred embodiment of the present invention, as shown in the two-stage integrated bidirectional steel wire fixing device 10 of the present invention, the end fixing hole in one wedge cone body 14 21 and the viewpoint fixing hole 31 are formed in parallel up and down.

The end point fixing hole 21 is formed in succession with a through hole 22 through which the steel wire W1 penetrates from the left side of the drawing, and the first center axis line X1-X1 of the through hole 22. The enlarged end point wedge hole 23 is formed, and the viewpoint fixing hole 31 has a through hole 32 through which the steel wire W2 penetrates from the right side of the drawing, and a second center of the through hole 32. The viewpoint wedge hole 33 which is formed successively about the axis X2-X2, and the cross section is gradually expanded, and the mounting hole 34 formed in succession to the said viewpoint wedge hole 33 are formed.

The end point wedge hole 23 and the view point wedge hole 33 are formed to gradually expand in cross-section in opposite directions, and the second center axis line X2-X2 of the start point fixing hole 31 is a wedge cone body ( It is formed in parallel with the center line (XX) of the 14, the first center axis (X1-X1) of the end point fixing hole 21 is the wedge cone body 14 toward the through hole 33 from the end point wedge 32 It is formed inclined with respect to the 2nd center axis line X2-X2 of the viewpoint fixing hole 31 so that the space | interval may gradually become close | similar to the center line XX.

In addition, the end wedge hole 22 of the end point fixing hole 21 and the start point wedge hole 32 of the start point fixing hole 31 are formed in three divisions and are known end wedges coupled to the rubber rings 25a and 35a. 25 and a view point wedge 35 are respectively provided, and a spring 37 is elastically installed between the fixing ring 36 and the view point wedge 35 in the mounting hole 34 of the view point fixing hole 31. The elastic force which always comes into close contact with the viewpoint wedge hole 33 is always provided.

On the other hand, the wedge cone body 14 is formed of a rectangular body portion 12 having a rectangular cross-sectional structure having a long vertical length and a short horizontal length, one end surface of the rectangular body portion 12 is larger than the horizontal length A circular protrusion 13 having a diameter is formed so that both edges of the circular protrusion 13 protrude from both sides of the rectangular body portion 12.

The PC culvert connection structure using the two-stage integrated bidirectional steel wire fixing device 10 having such a configuration will be described with reference to FIGS. 5A to 5C. First, as shown in FIG. 5A, the PC culvert group to be connected is formed by sequentially arranging a plurality of PC culverts, for example, the first to third PC culverts 1A, 1B, and 1C, and each of the first to third culverts. 3 PC culverts (1A, 1B, 1C) to form a pipe (2) in which the steel wire is inserted in the connecting direction, respectively, the end of the pipe (2) end of the third PC culvert (1C) located at the end of the present invention The steel wire fixing device 10 is fixed to be embedded together when concrete pouring is formed.

At this time, the fixing of the pipe 2 and the steel wire fixing device 10, the female threaded portion (2a) is formed on the inner circumferential surface of the pipe (2), to the wedge cone body 14 of the steel wire fixing device 10 It is preferable to form the male screw portion 13a in the formed circular protrusion 13 so as to be made by screwing them, and the circular protrusion 13 of the wedge cone body 14 is a rectangular body portion as shown in FIG. Since it protrudes from both sides of (12), to increase the bonding force with the steel wire fixing device 10 during the concrete placement of the third PC culvert (1C), and prevents the wedge-con body 14 from being detached in the buried state To perform.

The PC culvert group G1 having the first to third PC culverts 1A, 1B, and 1C configured as described above in succession is positioned at a city factory, and then the steel wire W1 is inserted through the pipe 2. The viewpoint end (left end of the drawing) of the steel wire W1 is fixed to the viewpoint surface of the first PC culvert 1A, and the normal viewpoint fixation device 10A is positioned on the viewpoint surface of the first PC culvert 1A. The wedge cone member 11A and the wedge 12A are bitten at the end point of the steel wire W1, and the wedge 12A bites the steel wire W1 by pulling the steel wire W1 in the direction of the arrow b of FIG. 5A. It is inserted into the wedge hole of the wedge cone member 11A so as to allow the steel wire W1 to be fixed.

Subsequently, the terminal end (right end in the drawing) of the steel wire W1 is inserted into the terminal fixing hole 21 of the steel wire fixing device 10 and snapped into the terminal wedge 25, and the steel wire W1 bitten by the terminal wedge 25. When the tension is released in the direction of arrow b by a hydraulic tension device (not shown), and the tension is released, the wedge cone 25 receives the steel wire W1 with the reaction force by the tension force of the steel wire W1. Close to the end wedge hole 23 of the body 14, the steel wire (W1) is contracted further pulls the end wedge 25 in the direction of the arrow a while contracting, the steel wire 11 is firmly fixed to the first to third PC The culverts 1A, 1B and 1C are connected in a state of being strongly in contact with each other by the contracting force of the steel wire 11.

Subsequently, as shown in FIG. 5B, the PC culvert group G2 in which the plurality of first to third PC culverts 1A, 1B, and 1C are successively arranged to be connected to the PC culvert group G1 is located at the city factory. Then, the steel wire (W2) is inserted through the pipe (2). The steel wire W2 protruding to the start surface of the first PC culvert 1A on the PC culvert group G2 side through the pipe 2 is already coupled to the third PC culvert 1C on the PC culvert group G1 side. After insertion into the viewpoint wedge 35 through the viewpoint fixation hole 31 of the steel wire fixing apparatus 10, it pulls in the direction of arrow b, and is bitten by the viewpoint wedge 35. FIG.

At this time, when inserting the steel wire (W2) into the inside of the viewpoint wedge 35 (arrow a direction) as shown in Figure 4, the viewpoint wedge 35 is pushed back, but the viewpoint wedge 35 by the elastic repulsive force of the spring 37 Is trying to be in close contact with the viewpoint wedge hole 33, when the steel wire (W2) is pulled again in the opposite direction to the arrow b in order to tension, the viewpoint wedge 35 is in close contact with the viewpoint wedge hole 33 with a spring force (W2) can be tightened more securely, thereby eliminating the problem that the steel wire (W2) is not settled as the viewpoint wedge (35) is pushed back completely and does not adhere to the viewpoint wedge hole (33). Can be.

Subsequently, the terminal end of the steel wire W2 is connected to the terminal wedge 25 through the terminal fixing hole 21 of another steel wire fixing device 10 embedded in the third PC culvert 1C of the PC culvert group G2. When the bite and the wire w2 bitten by the end wedge 25 are tensioned in the direction of arrow b by a hydraulic tension device (not shown), as shown in FIG. 5C, the PC culvert group G2 is a PC culvert group ( When the tension is released afterward, the end wedge 25 of the steel wire fixing device 10 of the PC culvert group G2 side is subjected to the reaction force by the tension force of the steel wire W2. While keeping close to the end wedge hole 23 of the wedge cone body 14, the steel wire (W2) is contracted, so that the end wedge 25 is further pulled in the direction of the arrow a, the steel wire (W2) is firmly fixed PC culverts 1A, 1B and 1C of the PC culvert group G2 are connected to the PC culvert group G1 in a state of being closely adhered to by the contracting force of the steel wire W2, and by repeating this connection structure, P Another C culvert group can be connected to the C culvert group (G2).

As described above, the PC culvert connection structure of the present invention has a central axis X2- of the viewpoint fixing hole 31 formed in the wedge-con body 14 of the two-stage integrated bidirectional steel wire fixing device 10 as shown in FIGS. 4 and 5C. The center axis line X1-X1 of the end point fixing hole 21 is inclined with respect to X2), and the center axis line of the end point fixing hole 21 and the start point fixing hole 31 in the direction opposite to the direction in which the steel wire W1 is tensioned. Since the gap is formed to become narrow gradually, when connecting the PC culvert group (G1) and PC culvert group (G2) with the steel wire fixing device 10, the end of the end of the steel wire (W1) is the end wedge of the terminal fixing hole 21 ( 25), and when the end of the viewpoint of the steel wire W2 is fixed to the viewpoint wedge 35 of the viewpoint fixing hole 31, contraction of the steel wires W1 and W2 acting on both sides of the wedge cone body 14 is performed. And a long longitudinal direction acts in an inclined direction close to the centerline XX of the wedge cone body 14.

Therefore, as shown in FIG. 6a, when the steel wires W1, W2, and W3 are repeatedly connected using the steel wire fixing device 10 of the present invention, the tension direction of the steel wire is the end of the steel wire fixing device 10. The center line XX of the wedge cone body 14 and the end of the end acts on the upper portion of the wedge cone body 14 of the steel wire fixing device 10, so that the center line (XX) of the wedge cone body 14 as a whole It is inclined in a diagonal direction with the center.

As a result, as shown in FIG. 6B, the steel wires 11, 11 ′, 11 ″ are spaced apart from the center line XX of the wedge cone member 301 (see FIG. 2) by an interval g to act in a parallel direction. Compared to the conventional two-stage integrated bidirectional steel wire fixing device 300, the tension direction is as close to the center line (XX) as possible, so that the load and rotation acting about the center line (XX) of the wedge body 14 By minimizing the load, it is possible to prevent the wedge-con body 14 from protruding in the tension direction, and the tension direction of the steel wire acting between the PC culvert groups G1, G2, and G3 is maintained in a straight line as much as possible. The adhesion of the is strengthened.

In addition, the present invention, as shown in Figure 5c by installing a hydraulic tensioning device in the end of the end of the steel wire (W1) to tension the steel wire (W1) to be fixed to the end wedge 25, the end of the steel wire (W1) The part can be inserted into the pipe 2 of the first PC culvert 1A of the next PC culvert group G2, so that it is not necessary to cut the end point of the steel wire W1, and the steel wire W2 can be inserted into the viewpoint wedge 35. In the case of fixing to the steel wire W2, the end of the viewpoint of the steel wire W2 penetrates the viewpoint wedge 35 and the viewpoint fixing hole 31, and is fully inserted into the pipe 2 of the 3rd PC culvert 1C of the PC culvert group G1. Accordingly, since the steel wire W2 can be firmly adhered to the viewpoint wedge 35 by a single insertion operation, the troublesomeness of the PC culvert assembly process using the steel wire fixing device is eliminated and the workability is improved.

And, in the present invention, when the steel wire (W2) in tension in the direction of the arrow b in order to contact the PC culvert group (G2) to the PC culvert group (G1), as shown in Figure 5c, the steel wire fixing device 10 is a pipe (2) And integrally coupled with the pipe 2 and embedded in the third PC culvert 1C together with the pipe 2, the pulling force of the steel wire W2 has no influence on the steel wire W1 that is in close contact with the PC culvert group G1. The third PC culvert 1C itself is attracted. Accordingly, the next PC culvert group G2 can be continuously connected while the contracting force of the PC culvert group G1 side steel wire W1 is maintained as it is, thereby preventing the adhesion between the PC culverts from being weakened from the outside. When the force acts, the connection between the PC culverts can be opened to reduce the watertightness, and the problem of adversely affecting the function can be solved.

In addition, the circular protrusion 13 formed on the wedge-con body 14 of the steel wire fixing device 10 increases the coupling force with the third PC culvert 1C, so when the steel wire W2 is tensioned, the steel wire fixing device ( 10 is prevented from escaping from the third PC culvert 1C, and the coupling force between the third PC culvert 1C and the steel wire fixing device 10 is maximized with respect to the direction of the pulling force acting on the steel wire fixing device 10. You can.

The embodiments described so far are merely illustrative of the preferred embodiments of the present invention, and the scope of the present invention is not limited to the described embodiments, and those skilled in the art within the technical spirit and claims of the present invention. It will be understood that various changes, modifications, or substitutions may be made thereto, and such embodiments are to be understood as being within the scope of the present invention.

1A to 1E are cross-sectional views showing a PC culvert connection process by a conventional bidirectional steel wire fixing apparatus.

Figure 2 is a cross-sectional view showing a PC culvert connection structure by a conventional two-stage integrated bidirectional steel wire fixing device.

3 and 4 are a perspective view and a longitudinal cross-sectional view showing a two-stage integrated bidirectional steel wire device according to the present invention.

5a to 5c is a cross-sectional view showing a PC culvert connection structure according to the present invention.

6A and 6B are schematic diagrams for explaining and comparing a PC culvert connection structure according to the present invention and the prior art.

<Description of the symbols for the main parts of the drawings>

10: steel wire fixing device 12: rectangular body portion

13: circular protrusion 14: wedge cone body

21: end fixing hole 22: through hole

23: end wedge hole 25: end wedge

31: viewpoint fixing hole 32: through hole

33: viewpoint wedge hole 35: viewpoint wedge

Claims (3)

An end point fixing hole in which an end point wedge hole, the section of which is gradually enlarged, is formed in the first center axis line, and a start point fixing hole in which the end point wedge hole is gradually formed in the opposite direction with respect to the end point wedge hole. In the two-stage integrated bi-directional steel wire fixing device having a wedge cone body disposed in parallel, the end wedge provided in the end wedge hole, and the start wedge provided in the viewpoint wedge hole, The second central axis of the viewpoint fixing hole is formed in parallel with the center line of the wedge cone body, and the first central axis of the endpoint fixing hole has two sides of the viewpoint fixing hole so that the distance from the center line of the wedge cone body gradually approaches. A two-stage integrated bi-directional steel wire fixing device, characterized in that formed inclined with respect to the central axis. The wedge-con body of claim 1, wherein the wedge-con body is formed of a rectangular body portion having a rectangular cross-sectional structure having a long vertical length and a short horizontal length, and a circular protrusion having a diameter larger than the horizontal length is formed at one end surface of the rectangular body portion. Two-stage integrated two-way steel wire fixing device characterized in that the protruding from both sides of the rectangular body portion of the circular protrusions. An end point fixing hole in which an end point wedge hole, the section of which is gradually enlarged, is formed in the first center axis line, and a start point fixing hole in which the end point wedge hole is gradually formed in the opposite direction with respect to the end point wedge hole. A two-stage integrated bi-directional steel wire fixing device having a wedge cone body disposed in parallel, an end wedge installed in the end wedge hole, and a start wedge installed in the end wedge hole are embedded in the end faces of the plurality of PC culvert groups, respectively. Precast concrete box culvert connection to connect multiple PC culverts in close contact by tensioning and fixing the end wedge of the two-stage one-piece bidirectional wire fixing device adjacent to the two-stage one-piece bidirectional steel fixing device by the tension In structure, The second center axis of the viewpoint fixing hole formed in the two-stage integrated bidirectional steel wire fixing device is formed in parallel with the center line of the wedge cone body, and the first center axis of the end point fixing hole has one side with the center line of the wedge cone body. It is formed to be inclined so that the interval gradually closes, the end point of the steel wire is settled in the time wedge of the steel wire anchoring device embedded in one PC culvert group, the end of the steel wire end point of the steel wire fixing device embedded in the other PC culvert group Precast concrete box culvert connection structure, characterized in that the tension direction of the steel wire acting on both sides of the wedge cone body of the steel wire fixing device embedded in each PC culvert group by acting in the wedge acts close to the center line of the wedge cone body .

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