KR20110095620A - Re-prestressable post-tension anchorage - Google Patents

Abstract

PURPOSE: A tensioning apparatus having a re-tensile function is provided to improve workability by applying tension to a wire rope using a torque wrench. CONSTITUTION: A tensioning apparatus having a re-tensile function comprises a support unit(160), a fixing device guide unit(180), a tension member(110), and a fixing unit. The support unit is fixed to the outer surface of a concrete structure(105) and has through holes(162). The fixing device guide unit is installed between a sheath(107) arranged inside the concrete structure and the inner surface of the support unit and has an inner space(182). The tension member is extended to the outside the concrete structure through the fixing device guide unit and the through hole of the support unit. The fixing unit connects the extended tension member to the screw threads(146) formed on the outer surface of a bolt unit(140).

Description

Tension and restraining tensioner {RE-PRESTRESSABLE POST-TENSION ANCHORAGE}

The present invention relates to a tension device capable of tension and re-tension for applying the internal post-tension method to the building, and more particularly, the construction resistance and tension resistance of the member due to the tension material rigidity generated when the post-tension method is applied. The present invention relates to a tension device capable of tension and retension that can stably maintain the strength and ductility of a post-tension structure over a long period of time and increase its effective maintenance and service life.

The conventional post tension system can be divided into two methods, internal and external, and the internal post tension system is divided into a multi strand method and a mono strand method.

The multi-strand method is a method that is actively applied in civil engineering, such as concrete structures and bridges having a large cross-sectional area by fixing and tensioning the strands in bundles. This method is characterized by excellent concrete crack control of concrete structures, long span, and reduced strength of members due to concrete shrinkage and creep and steel relaxation. It has advantages

However, due to the characteristics of the fixing system, the multi-strand system is composed of wedges and crimp sleeves for fixing the strands, thereby inevitably lowering the strength of the members generated in concrete shrinkage and creep and relaxation of the steel. This requires careful design. In addition, the high stiffness of the sheath pipe connector and the strand and the grouting process in the sheath pipe connector cause a decrease in workability.

On the other hand, the monostrand method is a method that is actively applied to the building concrete structure with a small cross-sectional area by fixing and tensioning one strand or steel bar. However, this method is also excellent in long span, concrete deflection and crack control, but the strength reduction of members generated in concrete drying contraction and creep and steel relaxation is inevitable, and the constructability is degraded due to the high rigidity of the strand.

In addition, the external post tension system is a repair and reinforcement method that is mostly used in Korea and is a method of reinforcing strength by introducing prestress to the outside of the concrete member.

As such, the tension material introduced into the prestress may include strands, steel rods, and the like, which may provide safety to the structure through reliable mechanical fixation, and maintain the lifetime of the building for a long time due to easy maintenance.

Furthermore, a structural reinforcement system and method for reinforcing load capacity of a structure by constraining a concrete structure, such as a column structure, with a wire rope in a transverse direction, having a simple work and excellent transverse reinforcing effect, have been proposed.

Such a conventional structure reinforcement system and its method is a bending member 21 and plate member 22 in the longitudinal direction of the reinforcement structure in the surface of the reinforcement structure 10 including the columnar structure or a groove formed in the surface as shown in FIG. Install a plurality of load-bearing reinforcement (20) including),

An eyebolt including a head portion 31 and a bolt portion 32 having a through hole in which one end portion of the wire rope penetrates and the overlapped ends are confined in the U-shaped state; And an eye bolt connector 34 in which one through hole is inserted into the bolt part 31 and constrained by the nut 33, and the other end of the wire rope penetrates into the other through hole and the overlapped end portion is constrained in a U-shape. It is installed to wrap the wire rope 40 on the surface of the load-bearing reinforcement (20) using a), by tightening the nut 33 to restrain the reinforced structure in the transverse direction.

However, the structure reinforcement system using the conventional wire rope installed outside of the concrete structure, when applied to the structure, increases the process due to the additional external finishing, lengthening the construction period, and requires careful management due to the concern of corrosion In addition, since it is not installed inside the concrete structure, there is no limit to using it as a tension and fixing device requiring tension and retension.

Furthermore, these existing post-tension methods may lose the prestress acting on the tension material due to the relaxation caused by the initial tension fixing stage and the inelastic deformation and crack of the concrete. In addition, in the post-tension construction, the process of introducing prestresses using hydraulic jacks for each tension member causes inconvenience in construction and causes air increase.

Therefore, it is necessary to develop the technology of the device which is more workable, economical and secures in the long term, and can be tensioned and settled in concrete structures that can be re-tensioned.

Therefore, the present invention is applied to the internal post-tension method of the structure using a wire rope of 6 to 20mm, three strands or seven strands by monostrand, etc. The tension that can increase the durability and ductility of post-tension structures over long periods of time, while improving the durability and durability of post-tension structures by addressing the deterioration of constructability due to stiffness and relaxation of structures due to relaxation. And providing a tension device capable of retension.

In order to achieve the above object, the present invention is fixed to the outer surface of the concrete structure, the support member in the form of a plate formed with a through hole so that the tension material can penetrate; A tubular member installed between the sheath disposed inside the concrete structure and the inner surface of the support portion, one end of which is connected to the end of the sheath, and the other end is disposed to communicate with the through hole of the support so that the fixing unit located outside A fixing unit guide unit installed to secure a space that can be inserted and moved; A tension member disposed to extend through the sheath and the fixing unit guide part and the support part to extend outside the concrete structure; The tension member is formed in the form of a tube formed on the outer circumferential surface to allow the tension member to penetrate through, and the tension member extended to the outside is fastened to the bolt part fixed to the outer end and the thread formed on the outer circumferential surface of the bolt part to support the bolt part on the fixing plate outer surface. And a fixing part including a nut part installed to be supported at the tension part, so that the bolt part may be rotated together with the nut part to adjust the tension force and the tension timing of the tension member according to the rotation of the nut part alone. It provides a tension device that can be retensioned.

In addition, the present invention preferably the support portion is to be installed as a part of the formwork for molding the concrete structure, so that a plurality of the through-hole is formed so that a plurality of fixing device guides, the fixing portion and the tension member can be installed in the support portion Provides tension device for tension and retension.

And the present invention preferably provides a tension device capable of tension and re-tension that the tension material is a tension material in the form of a wire.

In addition, the present invention preferably, the bolt portion is further formed with a head portion having a square outer peripheral surface at the outer end, the head portion is bitten by the rotation preventing means such as a spanner so that the bolt portion is not rotated together by the rotation of the nut and It provides a tension device that can be retensioned.

And the present invention preferably, the tension member is extended to the outside to further penetrate the tubular compression sleeve, the compression material by the compression of the tension member to the compression sleeve, and then the tension material is integrated compression Provided is a tensioning device capable of being tensioned and re-tensioned so that the sleeve is supported by a head portion formed at the outer end of the bolt portion so that the tension member can be fixed to the fixing portion by the compression sleeve.

In addition, the present invention is preferably the support unit, the fixing unit guide unit, the fixing unit including the head and the compression sleeve is installed so as to face each other on both outer surfaces of the concrete structure, the tension member disposed by the sheath inside the concrete structure is Provided is a tensioning and retensionable tensioning device that is tensioned and settled by the fixing parts disposed to face each other.

And the present invention is preferably the support unit, the fixing unit guide unit, the fixing unit including the head portion and the pressing sleeve is installed on one side of the outer surface of the concrete structure, the support structure is separately installed on the other outer surface of the opposite structure, concrete After extending from the inside of the structure to the outside through the through-holes of the separately installed support, the tension material extending to the outside to penetrate the tubular compression sleeve, the tension member by the compression of the compression sleeve support portion It is fixed to the outer surface, by the fixing unit installed on one side of the outer surface of the concrete structure to provide a tension device capable of tension and re-tension to be tensioned and settled in a straight line form.

In addition, the present invention preferably the support portion, the fixing device guide portion, the fixing portion including the head portion and the compression sleeve is installed on one side of the outer surface of the concrete structure, the through hole is not formed in the other outer surface of the structure opposite the annular head An additional supporting eye bolt is installed separately so that the formed eyebolt extends into the concrete structure, and at least one annular head of the eyebolt is installed at least one via the inside of the concrete structure from the fixing unit installed on one side of the outer surface of the concrete structure. It provides a tensioning and retensionable tensioning device that allows the tension material to tension and settle in the fixing portion by penetrating and returning back to the fixing portion.

And the present invention is preferably the support portion, the fixing device guide portion, the fixing portion including the head portion and the compression sleeve is installed on one side of the outer surface of the concrete structure, the through hole is not formed in the other outer surface of the structure opposite the annular head An additional supporting eyebolt is installed separately so that the formed eyebolt extends into the concrete structure, but the annular head of the at least two eyebolts is connected via the interior of the concrete structure from one fixing part installed on one side of the outer surface of the concrete structure. By penetrating and returning back to the fixing part, the final fixing of the tensioning material causes tension and fixing at the fixing part installed at another position of the supporting part so that the tensioning material is arranged in a U-shaped loop inside the concrete structure. Provides tension device for tension The.

In addition, the present invention preferably further installs the inclined plate formed with a through hole between the support portion and the nut portion of the fixing device to install the fixing device at an angle corresponding to the inclination arrangement of the tension member according to the inclination of the outer surface of the inclined plate. Provides tension and retension tensions to allow.

According to the tension and retension tension device according to the present invention can be used for the flexible wire rope and concrete mold substitute support, can be used to provide a tension force to the wire rope using a torque wrench, excellent workability, post-tension fixing work Improve construction time and shorten construction period.

In addition, according to the present invention, since the wire rope is used as the tension member, relaxation of the tension member and dry shrinkage and creep resistance of the concrete can be compensated for. In particular, it is easy to maintain the concrete structure after applying the post-tension method to ensure the long-term life of the building in the long term.

In addition, according to the present invention through the more simplified structure consisting of the pressing sleeve of the steel sleeve, the fixing portion and the support portion of the bolt and nut portion to improve the workability and impart structural stability to the post-tension concrete structure.

1 is an exploded perspective view showing a tension device capable of tension and retension according to the present invention.
2 is a cross-sectional view showing a structure in which a tension device capable of tension and retension according to the present invention is fitted to a tension member.
Figure 3a is a side cross-sectional view showing a structure in which the tension and re-tension tension device according to the present invention is provided at both ends of the concrete structure to give a tension force.
Figure 3b is a side cross-sectional view showing a structure in which the tension and re-tension tension device according to the present invention is installed at one end of the concrete structure to give a tension force.
Figure 4a is a side cross-sectional view showing a structure in which the tension and re-tension tension device according to the invention is installed on one end of the concrete structure, the eye bolt is installed to give a tension force.
Figure 4b is a cross-sectional view showing a structure in which the tension and re-tension tension device according to the invention is installed at one end of the concrete structure, the eye bolt is installed to give a tension force.
Figure 5 is a side cross-sectional view showing a structure in which the tension and re-tension tension device according to the present invention is provided at both ends of the concrete structure in which the eccentric distance of the wire rope is changed along the longitudinal direction of the concrete structure to give a tension force.
6a to 6c are explanatory diagrams showing the operating state of the tension device capable of tension and retension according to the present invention step by step.
7 is a perspective view of a structure reinforcement method using a conventional wire rope.

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

Tension and re-tension tension device 100 according to the present invention is a structure capable of re-tension to facilitate long-term durability and maintenance, as shown in Figure 1, the sheath of the concrete structure 105 107 is provided with a tension member 110 installed inside.

Such tension member 110 is preferably made of a wire rope (112). When the post-tension method is applied using a conventional tensioning material, the processing and the backing of the strand are not easy to handle in the present invention due to the stiffness of the sheath and the strand.

In particular, the conventional tension material in the form of strand strand monostrand is applicable in the present invention, but the conventional tension material in the multi-strand method is not easy to handle in the present invention is not easy to apply.

In addition, since the wavy friction coefficient of the conventional strands affects the accurate reinforcement 116 and the arrangement position, the reinforcement 116 that does not exactly match the planned strength and ductility at the time of structural design has a problem that is not made, such a It is preferable to use the wire rope 112 as the tension member of the present invention so as not to be affected.

Therefore, in the present invention, when the wire rope 112 is used as the tension member 110, it has a great tensile stress and excellent flexibility comparable to that of the conventional stranded wire, and thus, the construction property is remarkably improved compared to the conventional stranded wire which is difficult to handle. ,

The use of such characteristics in the post-tension method can result in the improvement of the performance of the structure and the reduction of the construction cost, and in particular, the installation of the tension member 110 and the reinforcement of the reinforcement bar 116 in the concrete structure 105 are made. At the same time, the planned strength and ductility can be accurately obtained.

And tension and re-tension device according to the invention 100 is provided with a fixing unit 130 to impart a pre-stress to the tension member 110 at the end of the tension member 110, such a fixing unit 130 ) Is a structure including a bolt portion 140 and a nut portion 150.

The bolt portion 140 of the fixing unit 130 has a head portion 144 having a square outer circumferential surface formed at its outer end portion C, and the head portion is bitten by a rotation preventing means such as a spanner, and the bolt portion rotates the nut portion. By not rotating together by the end, the end of the tension member 110 is inserted into the inner hole 142 is inserted.

The bolt portion 140 has a length L1 of about 100 to 300 mm, for example, and includes a head 144 and a screw 146.

The head part 144 transmits the movement of the bolt part 140 by the rotation of the nut part 150 to the steel sleeve 172, and the bolt part 140 does not rotate together when the nut part 150 rotates. This is to prevent the rotational means such as a spanner so as to form a square outer peripheral surface.

The thread 146 is a portion in which torque is applied to the nut part 150 to induce the movement of the bolt part 140.

The nut part 150 is a part to which torque is applied by a torque wrench, etc. As a result, in the present invention, the tension member 110 fixed to the bolt part is tensioned and fixed as the bolt part is moved by the rotation of the nut part 150. It can be seen that the structure.

The inner diameter of the bolt 140 may vary depending on, for example, the tension material diameter dw, and may be about 1.3dw to 1.5dw, and the outer diameter thereof may be about 2.0dw to 3.0dw including the thread 146.

In addition, the overall strength of the fixing unit 130 is to have a sufficient strength so that the pressure breakdown and local buckling of the thread 146 before the tension member 110 is broken.

In addition, the tension and re-tension device 100 according to the present invention is fixed to the outer surface (A) of the concrete structure and the support member 160 in the form of a plate formed with a through hole 162 so that the tension member 110 can be penetrated. The support unit 160 is provided by dispersing the prestress applied to the tension member 110 by the fixing unit 130 to the end of the concrete structure 105.

And the support 160 is preferably made as a part of the concrete mold (M), as shown in Figure 2, a plurality of through-holes 162 are formed at the lower end of the tension member 110 is penetrated, the size of the concrete It depends on the cross-sectional shape of the structure 105.

The thickness of the support portion 160 is, for example, about 10mm, the diameter of the through hole 162 is about 1.2dw ~ 1.5dw, and is installed as a substitute for the concrete mold (M) prior to the concrete casting role (m) And it is possible to precisely adjust the reinforcement bar 105 of the wire rope 112 contributes to reducing the construction cost and ensuring the accurate strength of the member.

In addition, a compression sleeve 170 including a sleeve 172 made of aluminum is mounted at an end of the tension member 110 as shown in FIGS. 1 and 2, and the compression sleeve 170 is one end of the tension member 110. In the sleeve 172, for example, made of aluminum, and firmly pressurized by an external press (not shown) so that the tension member 110 is integrated with the compression sleeve 170 so that the tension member 110 is the present invention. To be fixed to the fixing unit 130.

Accordingly, the pressing sleeve 170 may vary depending on the diameter of the tension member, and the diameter of the center hole 174 may be about 1.2dw to 1.5dw of the tension member diameter dw.

After the tension member 110 is fixed, the compression sleeve 170 transmits the movement of the bolt portion 140 generated by the torque applied to the nut part 150 to the wire rope 112 and is required for the tension member 110. Tension (prestress) is applied.

In addition, the tension and re-tension tension device 100 according to the present invention is of the tubular shape is installed between the sheath 107 and the inner surface (B) of the support disposed inside the concrete structure as shown in Figs. As a member, one end is connected to the end of the sheath 107, the other end is arranged to communicate with the through hole 162 of the support to secure a space for the fixing unit 130 located outside to be inserted and moved inside. It is provided with a fixing device guide portion 180 installed to.

As described above, the fixing unit guide unit 180 serves to secure a space 182 through which the bolt unit 140 can move in the concrete structure 105, and the size and length thereof are the bolt unit 140. It can vary depending on the outer diameter of the thread 146 and the length of the portion, usually about 2.0dw ~ 2.5dw of the diameter of the tension material (dw) is the outer diameter, the length (L2) is the thread 146 of the bolt portion 140 ) Make same as the part length.

Tension and re-tension device 100 according to the present invention configured as described above, as shown in Figure 2, before the concrete is placed in the concrete mold (M) tension member 110 and sheath 107, The support unit 160 is installed, and after the concrete is poured, the compression sleeve 170, the fixing unit 130, the bolt unit 140, the nut unit 150, and the like are mounted.

In this case, the head portion 144 of the bolt portion 140 provided in the fixing portion 130 is supported toward the pressing sleeve 170 side, and the thread 146 of the bolt portion 140 is fixed to the fixing portion 130. Located in the inner space 182 of the device guide portion 180, the nut portion 150 screwed to the threaded portion 146 of the bolt portion 140, one side thereof is supported on the outer surface of the support 160 to rotate It is fixed as possible.

Therefore, when applying a tension force through the fixing unit 130, the head portion 144 of the bolt portion 140 is fixed to prevent rotation through a tool, for example a spanner (not shown), the nut By rotating the part 150 to a torque wrench (not shown), the bolt part 140 moves the compression sleeve 170 to pull the tension member 110 and impart prestress.

As such, while turning the nut part 150, the bolt part 140 is moved by the screw thread 146. At this time, the head part 144 and the pressing sleeve 170 of the bolt part 140 are engaged with the tension member 110. Tension will be applied to.

As described above, the method of torqueing the nut part 150 may apply the correct tension force to the tension member 110 by finding the torque coefficient value of the torque wrench that rotates the nut part 150, and may re-tension to dry the concrete. It is easy to compensate for the reduction of the member strength due to shrinkage and creep creep and the relaxation of the wire rope 112, and to maintain long-term durability and maintenance.

3a to 5 show the installation structure of the tension device 100 can be tension and re-tension according to the present invention.

That is, Figure 3a is installed on both ends of the concrete structure 105 tension and re-tension device 100 of the present invention, Figure 3b is the tension and re-tension of the present invention at one end of the concrete structure 105 The tension device 100 is installed as far as possible, and the compression sleeve 170 is installed on the other side.

That is, as shown in Figure 3a in the present invention can be easily applied to the tension and re-tension tension device 100 in the conventional post-tension method.

In this case, the support unit 160, the fixing unit guide unit 180, the fixing unit 130 and the pressing sleeve 170 including the head portion 144 are installed to face each other on both outer surfaces of the concrete structure 105 The tension member 110 disposed by the sheath 107 in the concrete structure 105 is tensioned and fixed by the fixing unit 130 disposed to face each other.

In this way, by installing at both ends of the concrete structure 105, the stress of the tension member 110 can be evenly distributed over the entire length of the concrete structure 105, and the flexibility of the wire rope 112 of the tension member 110 and In addition, the wire of the wire rope 112 having a smaller cross-sectional area greatly reduces the friction coefficient and the wave friction coefficient which are a problem in the general strand, so that the stress member 110 is evenly distributed over the entire length of the concrete structure 105. Do it.

In addition, as shown in Figure 3b, the support portion 160, the fixing unit guide portion 180, the fixing unit 130 and the pressing sleeve 170 including the head portion 144 is the outer surface of the concrete structure 105 It is installed on one side, the support structure 160 is installed separately on the other outer surface facing the structure, so as to extend to the outside via the through-hole 162 of the separately installed support 160 from the concrete structure 105 Afterwards, the tension member 110 extending to the outside is further penetrated through the crimping sleeve 170 in the form of a tube, and the tension member 110 is fixed to an outer surface of the support part 160 by the compression of the crimping sleeve 170. In order to (fixed end), the tension member 110 is arranged in a straight line by the fixing unit 130 installed on one side of the outer surface of the concrete structure 105 to be tensioned and fixed.

In this case, prestress is applied to the tension member 110 through the fixing unit 130 positioned at one end of the concrete structure 105, and the tension member 110 is restrained if necessary.

And tension and re-tension tension device 100 of the present invention can be installed in the manner as shown in Figures 4a and 4b, that is, the support 160 and the eye bolt 190 is used in the fixed end That's how it works.

That is, in the case of FIG. 4A, the fixing part 130 and the pressing sleeve 170 including the support part 160, the fixing device guide part 180, and the head part 144 are one side of the outer surface of the concrete structure 105. And installed on the other outer surface of the opposite concrete structure 105, the through-hole is not formed and the support bolt 160 is installed separately so that the eye bolt 190 formed with an annular head extending into the concrete structure 105, The tension member 110 penetrates through the annular head of the eye bolt 190 installed at least one via the inside of the concrete structure 105 from the fixing unit 130 installed at one side of the outer surface of the concrete structure 105. By returning to the fixing unit 130, the tension member 110 is tensioned and fixed at the fixing unit 130.

In addition, in the case of Figure 4b the tension member 110 is at least two eye bolts 190 from the one fixing unit 130 installed on one side of the outer surface of the concrete structure 105 via the concrete structure 105 inside. By passing through the annular head of the back to the fixing unit 130, the final fixing of the tension member 110 is to be tensioned and fixed in the fixing unit 130 installed at another position of the support 160, the tension member 110 is to be arranged in a U-shaped ring inside the concrete structure 105. Therefore, the interior of the concrete structure 105 is to be installed in the loop type tension member 110 in the "∪" type.

The length of the eye bolt 190 is, for example, about 100 mm, and the diameter and hole diameter are about 2.5 dw and 2.0 dw or more, respectively. As such, the eye bolt 190 welded to the reinforcement position of the wire rope 112 at the support part 160 of one side is aligned with the correct reinforcement of the wire rope 112 while the wire rope 112 penetrates through the hole 192. This is possible. The eye bolt 190 simplified as a fixed end improves the workability of the fixed end construction, and excludes anchor setting loss caused by a crimp sleeve of a conventional post-tension method. ) Has the advantage of making stable behavior.

5 illustrates a structure in which a tension device 100 capable of tension and retension of the present invention is installed in a post-tension structure in which the eccentric distance of the wire rope 112, which is the tension member 110, changes in the concrete structure 105. .

At this time, the fixing unit 130 is a support portion 160, the pressing sleeve 170 and each disposed on both ends of the concrete structure 105, the eccentric distance of the wire rope 112 is changed along the longitudinal direction of the concrete structure 105 and Installed in each of the fixing device guide portion 180 is to prestress the tension member 110 at both ends of the concrete structure 105, it is configured to re-tension the tension member 110 if necessary.

In such a structure, the fixing device guide part 180 in the concrete structure 105 is bent at an angle corresponding to the planned curvature so as to secure the space 182 of the bolt part 140, which is generated from the wire rope 112. Reduce friction and wave friction coefficients.

In addition, between the support portion 160 and the nut portion 150 of the fixing unit 130 is further provided with an inclined plate 196 having a through hole formed in the inclined arrangement of the tension member 110 in accordance with the inclination of the outer surface of the inclined plate. The fixing unit 130 may be installed at a corresponding angle.

The operating sequence of the tensioning and retensionable tensioning device 100 according to the invention is shown throughout FIGS. 6A-6C. The operating sequence of the present invention as described above is divided into before and after concrete pouring.

First, before placing concrete, the tension member 110, the support unit 160, and the fixing device guide unit 180 are installed, the reinforcement bar 116 and the sheath 107 are installed, and then the concrete is poured.

That is, the reinforcement bar 116 and the sheath 107 are installed in the concrete mold M, the tension member 110 is installed in the sheath 107, and the tension member 110 is disposed at the end of the concrete mold M. The concrete is poured by installing the support part 160 and the fixing device guide part 180 to be fitted therein. At this time, the support 160 is preferably made of a portion of the concrete mold (M).

After the concrete is completely cured, as shown in FIG. 6A, the steel sleeve 172, the bolt part 140, and the nut part 150 are attached to the wire rope 112, which is the tension member 110. Through it, the tension member 110 is pulled by a hydraulic jack (not shown) to make the tension member 110 taut within a range where no tension force is applied.

Then, as shown in FIG. 6B, the steel sleeve 172 through which the tension member 110 penetrates is firmly fixed by pressing, and as shown in FIG. 6C, the head portion of the bolt portion 140 is shown. The head 144 is fixed with another tool (spare) (not shown), and torque is applied to the nut part 150 using a torque wrench (not shown).

That is, after the concrete is completely cured, the bolt part 140 and the nut part 150, which are the fixing part 130, are installed at the end of the tension material 110 so that the tension material 110 is fitted therein, and the steel sleeve 172. ), The pressing sleeve 170 is installed.

In addition, the tension member 110 is pulled by a hydraulic jack to maintain the tension in the tension member 110 within a range where no tension force is applied to the steel sleeve 172 of the compression sleeve 170 through which the tension member 110 penetrates. It is firmly fixed to the tension member 110 by an external press.

The head part 144 (head) of the bolt part 140 provided in the fixing part 130 is fixed with a tool, and a torque wrench is applied to the nut part 150 to the tension member 110 by using a torque wrench. Prestress is applied, and if necessary, the tension member 110 is re-tensioned through rotation of the nut part 150 of the fixing unit 130 to reinforce the drop in strength of the concrete structure 105.

As described above, in the process of applying prestress to the tension member 110 through the fixing unit 130, the torque to the nut unit 150 may be applied to the tension member 110 by finding the torque coefficient value of the torque wrench. When necessary, accurate re-tension is possible, and it is easy to compensate for the reduction of the member strength due to dry shrinkage of concrete, relaxation of creep and wire rope 112, and long-term durability and maintenance.

An embodiment of the present invention described above and shown in the drawings should not be construed as limiting the technical idea of the present invention. The protection scope of the present invention is limited only by the matters described in the claims, and those skilled in the art can change and change the technical idea of the present invention in various forms. Accordingly, such improvements and modifications are within the scope of the present invention as long as they are obvious to those skilled in the art.

100 ...... Tension device capable of tension and retension
105 ...... Concrete structures 107 ...... sheath
110 ...... tension 112 ...... wire rope
116 ...... reinforcement 130 ...... settler
140 ...... bolt section 142 ...... inner hole
144 ...... Head 146 ...... Thread
150 ...... Nut 160
162 ...... through hole 170 ..... Crimp sleeve
172 ..... Steel sleeve 174 ..... Tension diameter
180 ..... Fixture Guide Section 182 ..... Space
190 ...... Eye Bolt 192 ...
196 Inclined Plate A ...... Exterior surface of concrete structure
B ...... Inside surface C ...... Outside end
dw ...... tension material diameter M ....... concrete mold

Claims (10)

A plate-shaped support part fixed to an outer surface of the concrete structure and having a through hole formed therein for allowing the tension material to pass therethrough;
A tubular member installed between the sheath disposed inside the concrete structure and the inner surface of the support portion, one end of which is connected to the end of the sheath, and the other end is disposed to communicate with the through hole of the support so that the fixing unit located outside A fixing unit guide unit installed to secure a space that can be inserted and moved;
A tension member disposed to extend through the sheath and the fixing unit guide part and the support part to extend outside the concrete structure;
The tension member is formed in the form of a tube formed on the outer circumferential surface to allow the tension member to penetrate through, and the tension member extended to the outside is fastened to the bolt part fixed to the outer end and the thread formed on the outer circumferential surface of the bolt part to support the bolt part on the fixing plate outer surface. And a fixing part including a nut part installed to be supported by the nut part, so that the tension force and the tension timing of the tension member can be adjusted according to the rotation of the nut part only while the bolt part is set not to rotate together with the nut part. Tension and retensionable tensioner. The method of claim 1, wherein the support portion is to be installed as part of the formwork for molding the concrete structure, so that the plurality of through-holes are formed so that a plurality of fixing device guides, the fixing portion and the tension member can be installed in the support portion Characteristic tension and retensionable tension device. According to claim 1 or 2, wherein the tension member is tension and re-tensionable tension device, characterized in that the tension material in the form of a wire. [4] The method of claim 3, wherein the bolt portion further includes a head portion having a square outer circumferential surface formed at an outer end thereof, so that the head portion is bitten by a rotation preventing means such as a spanner so that the bolt portion is not rotated together by the rotation of the nut portion. Tension device for tension and retension. According to claim 4, wherein the tension member is extended to the outside to further penetrate the crimp sleeve in the form of a tube, and by the compression of the compression sleeve to the tension member is integrated into the compression sleeve, after the tension member is integrated Tension and re-tensionable tension device characterized in that the tension member is to be supported by the head portion formed in the bolt outer end portion to be fixed to the fixing unit by the compression sleeve. According to claim 5, The support unit, the fixing unit guide unit, the fixing unit including the head portion and the compression sleeve is installed so as to face each other on both outer surfaces of the concrete structure, the tension member disposed by the sheath inside the concrete structure mutually Tension and restrainable tension device characterized in that the tension and settled by the fixing unit disposed to face each other. According to claim 5, The support portion, the fixing unit guide portion, the fixing unit including the head portion and the compression sleeve is installed on one side of the outer surface of the concrete structure, the support structure is separately installed on the other outer surface of the opposite structure, concrete structure After extending from the inside to the outside through the through-hole of the separately installed support, the tension material extending to the outside to penetrate the tubular compression sleeve further, by the compression of the compression sleeve the tension member is the outer surface of the support portion To be fixed to, the tension and re-tension possible tension device, characterized in that the tension member is arranged in a straight form by the fixing unit installed on one side of the outer surface of the concrete structure to be tensioned and settled. According to claim 5, The support portion, the fixing unit guide portion, the fixing portion including the head portion and the compression sleeve is installed on one side of the outer surface of the concrete structure, the through hole is not formed in the other outer surface of the structure opposite the annular head portion The supporting eye bolts are installed separately so that the formed eye bolts extend into the concrete structure, and the tension member penetrates the annular head of the at least one eye bolt installed through the inside of the concrete structure from the fixing unit installed on one side of the outer surface of the concrete structure. Tension and re-tension possible tension device characterized in that the tension material is tensioned and fixed in the fixing unit by returning to the fixing unit again. According to claim 5, The support unit, the fixing unit guide unit, the fixing unit including the head portion and the pressing sleeve is installed on one side of the outer surface of the concrete structure, the through-hole is not formed in the other outer surface of the structure opposite the annular head portion The supporting eyelets are installed separately so that the formed eyebolts extend into the concrete structure, and the tension member penetrates the annular heads of the at least two eyebolts through the interior of the concrete structure from one fixing part installed on one side of the outer surface of the concrete structure. By returning back to the fixing unit, the final fixing of the tension member is to be tensioned and fixed in the fixing unit installed at another position of the support so that the tension member is arranged in a U-shaped ring inside the concrete structure Tension device for tension and retension. According to claim 1, Between the support portion and the nut portion of the fixing device is further provided with an inclined plate formed with a through hole so that the fixing device can be installed at an angle corresponding to the inclined arrangement of the tension member according to the inclination of the outer surface of the inclined plate Tension device capable of tension and re-tension characterized in that.

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