KR101239176B1 - Apparatus for extentional tension - Google Patents

Abstract

PURPOSE: An additional tensioning device for maintenance is provided to facilitate an instillation for an anchor when installing a steel wire for maintenance. CONSTITUTION: An additional tensioning device for maintenance comprises a fixing nut, a fastening member, a fixing member(30), and a tendon(40). The fixing nut is buried into the concrete of a girder(100) by being arranged in the lower part of a cast, thereby being fixed to the underside of the girder. The fastening member includes a bolt with a screw thread capable of coupling to a screw groove and a fastening plate(22) fixed to the underside of the girder by the bolt. The fixing member includes an anchor and a reinforcement member supporting the anchorage device. Both end portions of the tendon are fixed to the anchor while a tensile force is added so that the tendon provides a compressive force to the underside of the girder.

Description

Additional tensioning device for maintenance {Apparatus for extentional tension}

The present invention relates to an additional tension device for maintenance, and more particularly, to an additional tension device for maintenance that can be installed and reused with little damage to the girder of a bridge.

In the manufacture of prestressed concrete beams, it is sometimes necessary to bury spare maintenance tendons for future maintenance and to install anchorages to further tension the maintenance tendons. 7 is a photograph of one example of an anchorage for a maintenance tendon. The circled part in the picture is a fixing device for further tensioning the maintenance tendon, and a protrusion is formed on the side of the girder for such a fixing device so that the maintenance tendon can be tensioned if necessary during use. However, the maintenance steel wire may not be used for the life of the bridge, so reclamation of the maintenance steel wire is in many ways uneconomical. First of all, there is an uneconomical need to enlarge the cross-section to form protrusions, and it is also uneconomical to embed tendons and tendon ducts (sheath tubes) that may or may not be used.

On the other hand, if the steel wire for maintenance is not buried, the reinforcement of the bridge requires the installation of anchorages for tensioning the maintenance steel wire in the girder of the bridge, which requires anchoring in this process. However, in order to anchor, it is necessary to drill the concrete girder using a drill in the same manner as in the photo of FIG. 8, and a part of the cross section is lost in the process. More serious problems may occur, such as damage.

The present invention has been drawn to solve the problems of the above-described background, the problem to be solved by the present invention is to maintain the easy to install the anchorage for installing a steel wire for maintenance without damaging the concrete girder To provide additional tension for management.

The present invention as a means for solving the above problems,

Fixing nut is formed when the screw groove is formed downward when the bridge is formed and the upper part is blocked and is embedded in the concrete of the girder while being disposed in the lower portion of the formwork when constructing the girder;

A fastening member including a bolt having a screw thread that can be fastened to a screw groove of the fixing nut and a fastening plate fixed to the lower surface of the girder by the bolt;

A fixing member including a fixing tool coupled to the fastening plate and a reinforcing member supporting the fixing tool; And

It provides an additional tension device for maintenance, comprising a; tension member is fixed to the fixing member in a state in which a tensile force is applied.

The fixing nuts are preferably provided on both sides of the girder.

It is preferable that the fastening plate and the bolt are fixed.

The fixing member is more preferably coupled to allow relative rotation with respect to the fastening member.

The outer peripheral surface of the fixing nut is preferably formed with a stud for facilitating the synthesis with the concrete forming the girder.

It is preferable to further include a nut stopper that is temporarily installed before the bolt is coupled to the fixing nut.

Advantageous Effects According to the present invention, it is possible to prevent economic problems that may be caused by refilling steel wires in advance in order to introduce additional tension for maintenance of old bridges, and by not anchoring to install a fixing device. Damage to the structure that may occur during the anchoring process can also provide an additional tensioning device for maintenance that can be used to install the fixing device in advance.

1 is a view showing a fixing nut and nut stopper used in the maintenance tension device according to an embodiment of the present invention.
Figure 2 shows a fastening member used in the maintenance additional tension device according to an embodiment of the present invention.
3 is a view showing a fixing member used in the maintenance additional tension device according to an embodiment of the present invention.
4 is a view showing a state in which the fastening member shown in FIG. 3 and the fastening member shown in FIG.
5 is a view showing a state in which an additional tension device for maintenance is installed on the girder of the bridge.
6 is a view for explaining the effect of the coupling member and the fixing member coupled to the relative rotation.
7 is a photograph of one example of an anchorage for a maintenance tendon;
Figure 8 is a photograph for explaining a method for drilling in concrete for anchoring.
Figure 9 is a view for explaining an additional tension device for maintenance according to another embodiment of the present invention.

Hereinafter, with reference to the drawings will be described a preferred embodiment of the present invention to provide specific details for practicing the present invention.

1 is a view showing a fixing nut and a nut stopper used in the maintenance additional tension device according to an embodiment of the present invention, Figure 2 is an additional tension device for maintenance according to an embodiment of the present invention Figure 3 shows a fastening member used, Figure 3 is a view showing a fixing member used in the maintenance additional tension device according to an embodiment of the present invention, Figure 4 is a fastening member shown in Figure 2 and Figure 3 Figure 5 is a view showing a state in which the fixing member is coupled to, Figure 5 is a view showing a state in which an additional tension device for maintenance is installed on the girder of the bridge, Figure 6 is the effect of combining the fastening member and the fixing member to be relatively rotatable It is a figure for demonstrating.

The additional tension device for maintenance according to the present embodiment includes a fixing nut 10, a fastening member 20, a fixing member 30, and a tension member 40.

As shown in FIG. 1, the fixing nut 10 has a screw groove 11 facing downward in a state where the girder is disposed on the bridge, and the upper portion of the fixing nut 10 is blocked. The fixing nut 10 is embedded in the concrete forming the girder in a state arranged under the formwork when the girder 100 (see FIG. 5) is constructed and fixed to the bottom of the girder 100. At this time, the fixing nut 10 is embedded in both sides of the girder as shown in FIG. The upper part of the fixing nut 10 has a blocked nut shape in order to prevent the concrete from penetrating into the screw groove 11 even if it is embedded in the concrete forming the girder.

Several studs 12 are formed on the outside of the fixing nut 10 to facilitate the synthesis with concrete forming the girder 100.

Deformation of the number of the fixing nut 10 is installed in the girder should be considered to be within the technical spirit of the present invention. In this embodiment, the number of the fixing nut 10 is installed on each side of the girder 100, respectively.

Since the smaller the number of the fixing nut 10 has the advantage of minimizing the interference with the reinforcing bars in the girder 100, in this embodiment, the number of the fixing nut 10 is buried one by one. In addition, as the number of fixing nuts 10 decreases, the number of bolting operations is reduced, and thus, the advantages of easy operation can be expected.

A nut stopper 15 is installed and used in the fixing nut 10 as shown in FIG. 1. After the construction of the bridge is completed, a certain period of time is not required for additional tightening, so in order to prevent problems such as foreign matter is inserted into the screw groove 11 of the fixing nut 10, the nut stopper 15 is screw groove 11 It is inserted into and used.

The fastening member 20 is a fastening plate which is fixed to the lower surface of the girder 100 by the bolt 21 and the bolt 21 is formed with a screw thread that can be fastened to the screw groove 11 of the fixing nut 10 ( 22) and a fastening protrusion 23 having a cylindrical shape.

In this embodiment, the bolt 21 is fixed to one surface of the fastening plate 22 and the fastening protrusion 23 is fixed to the rear surface of the fastening plate 22, the bolt 21 and the fastening protrusion 23 is disposed coaxially, which can be seen in FIG. 2, which is a side view of the fastening member 20.

If there are two or more fixing nuts 10, the bolt 21 and the fastening plate 22 may not be fixed, and a bolt hole is formed in the fastening plate 22, and a bolt ( 21 is to be fastened to the screw groove of the fixing nut 10 in the inserted state, but in this embodiment, since only one fixing nut 10 is formed, the screw groove 11 is fixed even if the bolt 21 is fixed to the fastening plate 22. ) Can be tightened.

The fixing unit 30 is coupled to the fastening plate 22 and consists of a fixing plate 31, a fixing unit 35 and a reinforcing member.

The fixing plate 31 is coupled to the fastening plate 22 and is fixed in a state where the fastening protrusion 23 penetrates the fastening hole 36 formed in the fixing plate 31 so that the fixing plate 31 is fastened. Rotatingly coupled with the plate 22, the fastening member 20 and the fixing member 30 is rotatably coupled, wherein the rotation axis is coaxial with the center of the bolt (22).

The fastening plate 22 and the fixing plate 31 are both steel plates.

The fixing unit 35 is configured to fix an end portion of the tension member 40, and the reinforcing member is configured to support the fixing unit 35, and includes a first plate 32 and a second plate 33. The fixing member 30 shown in FIG. 3 is shown in a form in which the upper and lower sides are changed as compared with the case where the fixing member 30 is installed for convenience of explanation. The second plate 33 is provided with a tongue passage hole 34 and an end of the tongue 40 passing through the tongue passage hole 34 is fixed to the anchor hole 35. The fixture 35 can be deformed depending on the shape of the tension member. For example, if the tension member is a stranded wire, a wedge-shaped fixing member may be used. In the case of a steel bar, a nut-shaped fixing member having a screw groove may be used. In this embodiment, a configuration for fixing the steel rods as shown in Figs. 3 and 5 is used.

In FIG. 5, the size of the fixing nut 10 is shown to be very large. For the sake of clarity, in reality, the size of the fixing nut 10 is determined by structural calculation and has a smaller size than that shown. (10) may be used.

Since the fixing unit 35 or the reinforcing member is generally the same as the structure installed for the additional tension, the detailed description thereof will be omitted.

As the tension member 40 is configured to provide a compressive force to the lower surface of the girder 100 by fixing both ends to the fixing unit 35 in a state in which a tensile force is applied, a steel bar or a stranded wire may be used as described above. The example uses steel bars.

Hereinafter, a method of applying additional tension to the girder of the aged bridge by using the aforementioned additional tension device for maintenance will be described.

When the bridge is constructed, the fixing nut 10 is embedded in the girder, and the nut stop 15 is fastened to the screw groove 11 of the fixing nut 10 to use the bridge. If the bridge is aging after a certain period of time, it is decided whether to repair it or to rebuild it after the destruction.

If it is determined that the aging is less likely to be repaired, one of the methods of repair is to apply additional tension to the girder and use the configuration described above.

First, the nut stopper 15 is removed and the fastening member 20 and the fixing member 30 are coupled to the lower surface of the girder 100. When the bolt 21 of the fastening member 20 is fastened to the screw groove 11 of the fixing nut 10, the fastening member 20 and the fixing member 30 are coupled to the lower surface of the girder 100.

When the fixing nut 10 is installed, a line connecting the center of the bolt 21 is perpendicular to the second plate 33 in a state in which the fastening member 20 is engaged with the fixing nut 10 as shown in the right side of FIG. 6. Although it is preferable to install so that the bolt 21 is fastened to the screw groove 11, the line connecting the center of the bolt 21 and the second plate 33 may not be completely vertical. . If the fastening member 20 is coupled in the same state as shown in the left side of Figure 6 and the fastening member 20 and the fixing member 30 is fixed, it is impossible to provide additional tension force by the tension member 40. This is because stress concentration between the second plate 33 and the tension member 40 is likely to damage the tension member 40. (Of course, this is excessively rotated for convenience of explanation and will actually be only a few degrees of fine rotation. Of course, even if there is a slight angle difference, if the stress member 40 is stressed, the tension member 40 will be damaged. Can be.)

In order to solve this problem, the fastening member 20 and the fixing member 30 are rotatably coupled to the rotating shaft of the bolt 21 coaxially. As shown in FIG. 6, even when the fastening member 20 is coupled to the girder 100 in a slightly rotated state, the fixing member 30 may be properly rotated to apply tension to the tension member 40 without difficulty.

Of course, it may be temporarily fixed by spot welding in a state of rotating to an appropriate position before applying tension force, to facilitate the dismantling process, or may be completely fixed by general welding.

As a next step, in the state as shown in Figure 6 to apply a tension force to the tension member 40 to fix both ends and to provide a bending moment and compression force in the form of applying a compressive force to the tension force on the upper surface of the girder 100 at the same time Will be.

As such, when the bridge is used for a certain period of time in the state of repairing and strengthening the bridge by applying additional tension, the remaining components except the fixing nut 10 may be dismantled and recovered to be used at another site.

In the above, an embodiment in which only one fixing nut 10 is installed at each end of the PSC beam in order to minimize interference between the fixing nut 10 and the reinforcing bars used to manufacture the PSC beam has been described. You can change as many as you like.

For example, as shown in FIG. 9, a fixing nut 200 (FIG. 9) shows a second embodiment, and the same configuration as that of the previous embodiment for the purpose of differentiating from the above-described embodiment with reference to FIGS. 4 may be provided at both ends of the PSC beam.

In this case, unlike the previous embodiment, the fixing member 120 includes one plate, a reinforcing member, and a plate for fixing, and the bolt member 210 passes through a bolt hole provided in the fixing member 120 to fix the fixing nut 200. The fixing member 120 is fixed to the PSC beam 100 in a form fastened to the PSC beam 100.

Since the tension member 140 and the fixing means 130 and all the other components are substantially the same as the corresponding components in the previous embodiment, further description will be omitted.

Although the above provides specific details for carrying out the present invention by describing preferred embodiments of the present invention, the technical idea of the present invention is not limited to the described embodiments, and various modifications may be made without departing from the technical idea of the present invention. It can be embodied as an additional tension device for maintenance of the form.

10: fixing nut 20: fastening member
30: fixing member 40: tension member

Claims (6)

Fixing nut is formed when the screw groove is formed downward when the bridge is formed and the opposite side is blocked and is embedded in the concrete of the girder while being disposed in the lower portion of the formwork when constructing the girder;
A fastening member including a bolt having a screw thread that can be fastened to a screw groove of the fixing nut and a fastening plate fixed to the lower surface of the girder by the bolt;
A fixing member including a fixing tool coupled to the fastening plate and a reinforcing member supporting the fixing tool; And
And a tension member fixed to the fixing member in a state where a tensile force is applied.
The fixing nut is provided on each side of the girder one by one,
The fastening plate and the bolt are fixed,
On the surface where the bolt of the fastening member is not fixed, a fastening protrusion having a cylindrical shape is disposed coaxially with the bolt,
The fixing member is an additional tension device for maintenance, characterized in that coupled to the fastening projection relative to the fastening member relative to the rotating shaft of the bolt.
delete delete delete The method of claim 1,
An additional tension device for maintenance, characterized in that a stud is formed on the outer circumferential surface of the fixing nut to facilitate synthesis with the concrete forming the girder.
The method of claim 1,
The maintenance tension device further comprises a nut stopper temporarily installed before the bolt is coupled to the fixing nut.

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