KR102471938B1 - Re-tension fixing device of tension cable for structure and post tensioning reinforcing method using this same - Google Patents

Abstract

The present invention relates to a re-tension mounting device of a tendon for securing the integrity of a structure, which prevents a malfunction due to wear, and a structure post-tensioning reinforcement method using the same. The re-tension mounting device of a tendon comprises: a fixed block (10) which is fixed to a structure; a re-tension block (20) to which a tendon is fixed; and a spacer (30).

Description

Re-tension fixing device of tension cable for structure and post tensioning reinforcing method using this same}

The present invention relates to a post-tensioning reinforcement method for reinforcing a structure (concrete, steel, etc.) such as a bridge girder with a tension member, and more particularly, avoids the bolt-type re-tension method to prevent malfunction due to abrasion and to It relates to a re-tension fixing device for tension members and a structure post-tensioning reinforcement method using the same to ensure the integrity of structures that can be re-tensioned during the period and can be installed and used without erosion of the mold height and excessive external exposure (protrusion) .

This section provides background information related to the subject matter of this application and is not necessarily prior art.

A bridge is a structure that endures a wide variety of dynamic loads as well as fixed loads throughout its life cycle. Most of the dynamic loads are vehicle loads, which theoretically secure structural safety within the design vehicle load. Adjacent or instantaneously exceeded cases occur. Fatigue stress is additionally generated in the bridge due to this relatively large dynamic load, which is a factor that causes fatigue damage and is a major cause of reducing the service life of the bridge.

On the other hand, as a technology for improving the durability of bridges, an external prestressing method that introduces external tensile force is being introduced in order to effectively compensate for the deflection of the mold of an old bridge. This construction method introduces compressive force into the bridge by tensioning the tension member (steel wire) installed along the bridge axis direction, and imparts a restoring force that offsets the deflection occurring in the center of the bridge due to the load action. It effectively increases the load capacity of the bridge. can

Patent Document No. 10-0989947, a patent document related to the external tension member introduction method, explains that re-tension is possible depending on the force of the bolt thread in the tension member at the center of the girder, but this makes re-tension impossible as soon as the bolt thread is corroded. . There are no patents on methods for semi-permanent preservation of bolt threads. In addition, even if re-tensioning is possible, there is a problem of eroding the bridge mold height.

Registered Patent No. 10-0522185 is also a method of adjusting the tension force by the force of the threads of bolts and nuts, but it can be seen that re-tension is almost impossible when corrosion occurs due to long-term use. In addition, this tension method of the bolt nut method is characterized by being limited to the tension member of the steel bar member type. Although technically plausible, there are limits to practical application.

According to the conventional external tension member introduction method, most of the technologies used were bolt and nut threads, and it was possible to introduce the tension member during initial construction, but when re-tensioned several years later, re-tension was not smooth due to corrosion or abrasion of bolts and nuts. Can not do it.

In addition, the prior art has a disadvantage in that, in addition to maintenance against corrosion, the aesthetic appearance is not good because it is excessively protruded to the outside.

In particular, when the tension is readjusted using the hinge at the center of the girder, the mold height of the bridge is eroded, so the mold height of the design standard may be violated, especially if the lower part of the bridge is a river or a road.

Registered Patent No. 10-0989947 Registered Patent No. 10-0522185

The present invention is intended to solve the above-mentioned problems, and avoids the bolt-type re-tension method to prevent malfunction due to wear, and also enables re-tension work for a long period of time, and also erodes the mold and excessive external exposure. The purpose is to provide a re-tension fixing device for tension members to secure the integrity of structures that can be installed and used without (protrusion) and a post-tensioning reinforcement method for structures using the same.

The re-tension fixing device of the tension member for securing the soundness of the structure according to the present invention is installed on one or more of both sides of the longitudinal direction of the tension member installed on the structure to tense the tension member, and the fixing part fixed to the structure and the tension member are connected. and a re-tensioning part movably connected to the fixing part in the re-tensioning direction of the tension member, and a spacer for fixing the re-tensioning part in a re-tensioning state by filling a gap caused by the re-tensioning of the re-tensioning part. .

In the structure post-tensioning reinforcement method using the re-tension fixing device of the tension member for securing the integrity of the structure according to the present invention, the tension member is wired to the structure and at least one side of both sides in the longitudinal direction of the tension member is tension member for securing the integrity of the structure an installation step of installing a re-tension fixing device; A jack is installed in the re-tension fixing device of the tension member to secure the integrity of the structure, and the re-tension block of the tension member re-tension device for securing the integrity of the structure is moved in the re-tension direction of the tension member through the extension of the jack Afterwards, a re-tensioning step of re-tensioning the tension member by installing a spacer in the gap between the fixing block and the re-tension block of the re-tension fixing device of the tension member to secure the soundness of the structure; It characterized in that it comprises a jack removal step of removing the jack from the re-tension fixing device of the tension member for securing the soundness of the structure.

According to the tension member re-tension fixing device for securing the integrity of the structure according to the present invention and the structure post-tensioning reinforcement method using the same, the tension member through the linear movement method of the re-tension block composed of the tension member connecting block and the movable block to which the tension member is connected re-tensioning, and this moving method of the re-tensioning block does not cause malfunction due to corrosion or abrasion over time, so normal re-tensioning is possible even after 4 to 5 years after the installation of the tension member, so the usability and reliability are very high. It is excellent, and eventually has the effect of securing the soundness of structures such as bridges (concrete, steel, etc.) for a long period of time.

In addition, since the results of the re-tension work can be easily checked numerically through the management of the thickness of the spacer, it is possible to manage the bridge (prediction of the re-tension work, etc.).

In addition, it can be installed and used without erosion of the mold height and excessive external exposure (protrusion), so the usability is very excellent.

1 is a perspective view of a re-tension fixing device for a tension member for securing the soundness of a structure according to the present invention.
Figure 2 is a plan view of a re-tension fixing device for a tension member for securing the soundness of a structure according to the present invention.
Figure 3 is a side view of the re-tension fixing device of the tension member for securing the soundness of the structure according to the present invention.
4 and 5 are examples in which the re-tension fixing device of the tension member for securing the soundness of the structure according to the present invention is used together with the tension member in the form of a steel rod and a strand.
6 and 7 are examples of installing a re-tension fixing device for a tension member for securing the soundness of a structure according to the present invention, respectively.
8 is a process diagram of a structure post-tensioning reinforcement method using a re-tension fixing device for securing the integrity of a structure according to the present invention.

In the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description will be omitted. In addition, terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to the intention or custom of a user or operator. Therefore, the definition should be made based on the contents throughout this specification.

As shown in Figures 1 to 3, the re-tension fixing device 100 of the tension member for securing the integrity of the structure according to the present invention includes a fixing block 10 installed and fixed to the structure (such as a girder of a bridge), a tension member (2) is fixed and the re-tension block 20 movably mounted to the fixing block 10 in the re-tension direction of the tension member 2, the re-tension block by filling the gap due to the re-tension of the re-tension block 20 It is configured to include a spacer 30 for fixing (20) in a re-tensioned state, and is installed on one or more of both sides of the tension member 2 in the longitudinal direction.

The fixing block 10 includes a fixing part 12 fixed to the structure 1, a jack support wall 13 built on the fixing part 12 and supporting one side of the jack (eg, hydraulic jack) 200, It extends from the jack support wall 13 toward the opposite direction of the tension member 2 and includes a spacer support wall 14 supporting the spacer 30 . In addition, although not shown in the drawings, a bottom portion on which the jack 200 is seated may be further included between the jack support wall 13 and the spacer support wall 14.

The fixing part 12 is, for example, in the form of an outward flange protruding from the bottom of the jack support wall 13 on both sides, each including one or more anchor through-holes, passing through the anchor through-holes to the structure 1 It is fixed to the structure 1 through an anchor 11 inserted and fixed therein.

The fixing method of the fixing part 12 is not limited to anchoring, and various methods such as a method of winding a steel member around a structure and then fixing the steel member to the steel member by welding or bolting are possible.

Fixing part 12 is preferably fixed by an anchor when applied to a concrete structure, and when applied to a steel structure, it is also possible to be fixed by welding or bolting.

The jack support wall 13 is formed on the fixing part 12 to a size capable of supporting the jack 200, and is configured as a support so as not to be pushed to the rear of the jack 200 by the pressure generated during operation of the jack 200. this may be included.

A guide means is applied so that the re-tension block 20 can move in the re-tension direction without being disengaged or twisted from the fixing block 10, and the fixing block 10 includes a guide hole 15 in which the guide means is supported. . The guide hole 15 is preferably in the form of a hole penetrating both sides, but a groove structure in which one side is open for easy installation is also possible.

The spacer support wall 14 is formed of two opposing sides of the jack support wall 13 to support both sides of the spacer 30 together so that the spacer 30 maintains its position and consequently the spacer 30 Through this, the re-tension block 20 maintains the re-tension state.

The spacer support wall 14 may be fixed to the structure 1 together with the jack support wall 13 through an anchor installed in the fixing portion including a fixing portion.

Therefore, the spacer support wall 14 is not limited to the shape of the wall, and any shape capable of supporting the spacer 30 (rod shape, bolt, etc.) is possible.

In addition, the spacer support wall 14 may be configured to be prefabricated to be replaced on the jack support wall 13 to ensure maintainability, and at this time, in the form of a bolt (after the bolt penetrates the jack support wall 13, the jack In the case of a form fixed through nuts fastened to both sides of the support wall 13), the length can be adjusted, and various sizes can be shared through this length adjustment structure.

The re-tension block 20 is connected to the tension member connection block 21 and the tension member connection block 21 to which the tension member 2 is connected and fixed, and moves in the re-tension direction of the tension member 2 by the elongation force of the jack 200 It consists of a movable block 22 that re-tensions the tension member 2.

Since the tension member connecting block 21 only connects the tension member 2 and does not directly re-tension the tension member 2, it is possible to simply fix the tension member 2.

The tension member connection block 21 and the movable block 22 are disposed on both sides with the fixing block 10 interposed therebetween, that is, the tension member connection block 21 is on the left side of the jack support wall 13, the spacer support wall On the right side of (14), a movable block (22) is placed with a spacer (30).

The tension member connection block 21 and the movable block 22 should be connected to each other, and the re-tension block 20 should also be supported by the fixing block 10, and in the present invention, the guide rod 23 is used as a guide means. It enables two functions.

The guide rod 23 is movably inserted into the guide hole 15 of the jack support wall 13 while both sides in the longitudinal direction are fixed to the tension member connecting block 21 and the movable block 22, respectively, and installed on both sides, respectively. This ensures stability during movement of the re-tension block 20.

Guide rods 23 may be inflexible rods, bolts, etc., and in the case of bolts, the distance between the tension member connection block 21 and the movable block 22 may be adjusted.

The guide rod 23 is very useful in that it serves two functions: connection and movement of the re-tension block 20, and therefore, the connection between the tension member connection block 21 and the movable block 22 and the re-tension block 20 It is also possible to separate the movement of each possible configuration.

The spacer 30 is for maintaining the re-tension block 20 in a re-tension state by filling the gap between the re-tension block 20 and the fixing block 10 as the re-tension block 20 moves to re-tension the tension member 2. It is an area that can support the two spacer support walls 14 and is preferably in the form of a thin plate material and made of iron or the like having a high compressive strength so as to be used in accordance with the spacing that increases according to re-tension.

In addition, since the spacer 30 must be installed before separating the jack 200 while the movable block 22 is moved to the jack 200, it includes a jack receiving groove 31 in which the jack 200 is accommodated.

Of course, it is also possible if the spacer 30 is divided into two and installed on both sides of the jack 200, and in this case, the jack receiving groove is not formed.

In addition, a safety device may be further applied to prevent the spacer 30 from being separated.

The safety device is capable of fixing the spacer 30 by forming a hole in the spacer 30 and the movable block 22 or the spacer support wall 14 and inserting a safety pin into the hole.

In the present invention, the fixing block 10 provides an installation space for the jack 200, and since the installation space is used as an empty space by separation of the jack 200 after the re-tension operation, foreign substances can penetrate and the fixing block Since there is a possibility of damage to (10) and the re-tension block (20), it is preferable to be protected by the cover (40).

It is possible to check the thickness of the spacer 30, and it is possible to check and manage the re-tension result by checking the thickness of the spacer 30 used for each re-tension operation.

The cover 40 is detachably assembled to the tension member connection block 21 and the movable block 22 of the re-tension block 20 through bolts, etc. to protect the fixed block 10 and the re-tension block 20, A structure that protects three surfaces of the fixed block 10 and the re-tension block 20 (all surfaces except for the surface fixed to the structure 1), a structure of three flat plates covering the upper surface and both side surfaces, respectively, etc. are possible. .

A typical bridge may have a re-tensioning cycle of 4-5 years or 10 years or more. That is, since it is exposed to the outside for a long period between re-tension cycles, protection by the cover 40 is a very important technique.

Since the re-tension block 20 is re-tensioned and the position is changed, but the length is not changed, the cover 40 can be used as a single structure without a change in length.

In addition, it is possible to increase the protective effect of the fixing block 10 and the re-tension block 20 by filling the cover 40 with an anti-corrosion material, and the cover 40 may include one or more fillings for filling the anti-corrosion material after assembly. Hole 41 is included.

The re-tension fixing device 100 of the present invention can use both the steel bar-type tension member 2-1 (see FIG. 4) and the steel-formed tension member 2-2 (see FIG. 5), that is, in the present invention It is possible to use all tension materials not illustrated.

Installation of the tension member re-tension fixing device for securing the soundness of the structure according to the present invention is performed after fixing the fixing part 12 of the fixing block 10 with the anchor 11 and inserting the jack 200 into the installation space. It is possible by a method of tensioning the tension member 2 by pushing the movable block 22, and at this time, if necessary, a spacer 30 is installed between the spacer support wall 14 and the movable block 22. Finally, the cover 40 is assembled and finished.

6 and 7 are exemplary views to which the re-tension fixing device 100 of the present invention is applied, and FIG. 6 shows the re-tension fixing device 100 of the present invention, respectively, on both sides in the longitudinal direction while the tension member 2 is installed in a straight line. is installed, and FIG. 7 is an example in which the re-tension fixing device 100 of the present invention is installed on both sides in the longitudinal direction while the tension member 2 is installed in a form in which the central portion is wired downward than both sides.

According to the above structure, the distance between the tension member connecting block 21 and the jack support wall 13 is a distance that can be re-tensioned, and the re-tension width can be set and changed with a margin by adjusting the distance between them 13 and 23. There is, as an example of the change method, there is a method of changing the position by fixing the jack support wall 13 to the guide rod 23 while configuring it to be slidable and fixing the nut to fasten the locking pin on both sides.

The structure post-tensioning reinforcement method using the re-tension fixing device of the tension member to secure the soundness of the structure according to the present invention is composed of cover separation - jack installation - re-tension - spacer installation - jack removal - cover installation - sealing finish. The specific process is as follows (see FIG. 8).

1. Remove the cover.

To install the jack 200, the cover 40 is separated. Thus, the installation space of the jack 200 is open and exposed to the outside. 8 shows that the spacer support wall 14 is supported by the movable block 22 without the spacer 30 as an example.

2. Jack installation.

A jack 200 is inserted into the installation space of the fixing block 10, and the jack 200 is supported on the jack support wall 13.

3. Re-tension.

When hydraulic pressure is applied to the jack 200, the rod 210 is withdrawn, pushing the movable block 22 to the opposite side of the tension member 2, and the tension member connection block 21 moves together with the movable block 22, thereby moving the tension member ( 2) is stressed.

At this time, since the guide rod 23 moves along the guide hole 15 of the fixing block 10, the re-tension block 20 moves only in the re-tension direction of the tension member 2 without twisting or separation.

On the other hand, since the re-tension distance varies depending on the structure and the capacity of the jack 200 is also limited, a situation arises in which the jack 200 is moved toward the movable block 22 to perform the re-tension operation. To this end, the jack 200 ) can be re-tensioned while installing one or more spacers for jack supports on the back side. In other words, it is possible to re-tension in various widths without replacing the jack with a larger capacity.

4. Spacer installation.

When the movable block 22 is moved through the jack 200, an empty gap is created between the movable block 22 and the spacer support wall 14, while maintaining the rod 210 of the jack 200 in a drawn-out state. A spacer 30 is inserted into the gap.

In this case, the spacer support wall 14 and the movable block 22 are supported by the spacer 30 and also supported by the jack 200.

5. Remove the jack.

After shrinking the rod 210 of the jack 200, it is removed to the outside of the fixing block 10. Even if the jack 200 is removed, the re-tension block 20 maintains a re-tension state through the spacer 30 .

6. Install the cover.

After completing the above re-tensioning work, the cover 40 is coupled.

7. Sealing closure.

The sealing material 50 is applied to the portion where the structure 1 and the cover 40 come into contact to finish. The fixing block 10 and the re-tensioning block 20 are more effectively protected by preventing the occurrence of a gap between the cover 40 and the structure 1 through the application of the sealing material 50 .

1: structure, 2: tension member
10: fixed block, 11: anchor
12: fixing part, 13: jack support wall
14: spacer support wall, 15: guide hole
20: re-tension block, 21: tension member connection block
22: movable block, 23: guide rod
30: spacer, 31: jack receiving groove
40: cover, 41: filling hole
50: sealing material, 100: re-tension fixing device
200: Jack,

Claims (11)

It is installed on one or more sides of both sides of the longitudinal direction of the tension member 2 installed in the structure 1 to tense the tension member,
A fixing block 10 fixed to the structure and providing a jack installation space;
a re-tension block (20) to which the tension member is fixed, movably supported by the fixing block, and moving through a jack installed in the installation space of the fixing block to re-tension the tension member;
A spacer 30 for maintaining the re-tension block in a tension state of the tension member by filling a gap caused by the movement of the re-tension block,
The spacer is a tension member re-tension fixing device for securing the soundness of the structure, characterized in that one or more plate materials fitted in the gap between the re-tension block and the fixing block. [Claim 2] The re-tension fixing device for tension members for securing the soundness of a structure according to claim 1, further comprising a guide means for guiding the movement of the re-tension block and preventing its separation. delete The method according to claim 1 or claim 2, characterized in that the spacer of the plate includes a groove that does not interfere with the rod of the jack to be inserted and installed before removing the jack in a state in which the re-tension block is re-tensioned by jacking of the jack. A re-tension fixing device for tension members to secure the integrity of the structure. The method according to claim 1 or claim 2, wherein the re-tension block is the tension member is fixed and the tension member connection block 21 disposed on one side of the fixing block, while being disposed on the opposite side of the tension member connection block based on the fixing block Re-tension fixing device for tension members for securing the integrity of the structure, characterized in that it includes a movable block 22 connected to the tension member connection block and moving together with the tension member connection block by the jack. The method according to claim 5, wherein the fixing block is formed toward the movable block from the fixing part 12 fixed to the structure, the jack supporting wall 13 connected to the fixing part, and the jack supporting wall, and A re-tension fixing device for a tension member for securing the soundness of a structure, characterized in that it comprises a spacer support wall 14 for supporting the spacer installed in the gap formed therebetween. The re-tension fixing device for tension members according to claim 1, comprising a cover (40) for covering and protecting the fixing block and the re-tension block. [Claim 8] The apparatus for re-tensioning and fixing tension members for securing soundness of a structure according to claim 7, further comprising a filling hole for protecting the fixing block and the re-tensioning block by filling the cover with an anti-corrosion material. A structure post-tensioning reinforcement method using a tension member re-tension fixing device to secure the integrity of the structure according to claim 1,
An installation step of wiring the tension member to the structure and installing a re-tension fixing device for the tension member to secure the soundness of the structure on one or more of both sides of the longitudinal direction of the tension member;
A jack is installed in the re-tension fixing device of the tension member to secure the integrity of the structure, and the re-tension block of the tension member re-tension fixing device for securing the integrity of the structure through the extension of the jack is moved in the re-tension direction of the tension member Afterwards, a re-tension step of re-tensioning the tension member by installing a spacer of a plate in the gap between the fixing block and the re-tension block of the re-tension fixing device of the tension member to secure the soundness of the structure;
Structure post tensioning reinforcement method using a re-tension fixing device for securing the integrity of the structure, characterized in that it comprises a jack removal step of removing the jack from the re-tensioning fixing device of the tension member for securing the integrity of the structure. The method according to claim 9, wherein the re-tension fixing device of the tension member for securing the soundness of the structure includes a cover, the re-tension step is to install the jack after separating the cover, and the jack removal step is to assemble the cover Structure post tensioning reinforcement method using a re-tension fixing device for securing the integrity of the structure, characterized in that after protection, it is finished with a sealing material. The method according to claim 9 or claim 10, wherein the re-tensioning step is a structure using a re-tension fixing device for securing the soundness of a structure, characterized in that re-tensioning while installing one or more spacers for jack support behind the jack. Post-tensioning reinforcement method.

Images