KR100522185B1 - Reinforcement apparatus for post tensioning using compressed grip and tension nut and methods of the same - Google Patents

Abstract

The present invention relates to a post-tensioning reinforcement device using a crimping grip and a tension nut and a method thereof, and more particularly, to facilitate tensioning and retension of a reinforcing material used to reinforce a building structure, and anchorage the fixing means. It relates to a post-tensioning reinforcement device and a method for minimizing the loss of tension due to slip). To this end, the post-tensioning reinforcement apparatus using the present invention, the compression grip and the tension nut, a fixing having a fixing part coupled to the structural member of the building structure to be reinforced, and a supporting member installed to protrude from the fixing part and having a through hole formed therein. plate; A crimping grip inserted into the through hole, the hollow portion into which one end of the reinforcement member is inserted penetrates in the longitudinal direction thereof, and a thread is formed on the outer peripheral surface thereof; And a tension nut formed on an inner circumferential surface of the thread to be joined with the thread to engage with the compression grip.

Description

Reinforcement apparatus for post tensioning using compressed grip and tension nut and methods of the same}

The present invention relates to a post-tensioning reinforcement device using a crimping grip and a tension nut and a method thereof, and more particularly, to facilitate tensioning and retension of a reinforcing material used to reinforce a building structure, and anchorage the fixing means. It relates to a post-tensioning reinforcement device and a method for minimizing the loss of tension due to slip).

In general, post-tensioning techniques are widely used to reinforce finished building structures. The method reinforces the structure by installing a separate fixing member on the outside of the structure and arranging the reinforcing member on the fixing member, and then tensioning the reinforcing member.

The tension introduced to tension the stiffeners is reduced for several reasons. In the above method of applying post-tension outside the structure, the anchor slip is the main cause of the decrease in tension.

For example, in the case of a wedge widely used as a fixing means, when a tension force is introduced and then the tensioner is released for fixation, the reinforcement slides a certain distance until the wedge is settled. That is, the activity of the fixing means occurs. The distance of slip is usually about 3 to 6 mm.

Over-stressing is applied to prepare for loss of tension due to the action of these fixing means. In other words, it prepares for the loss of tension by applying tension to the reinforcement in advance that is greater than the required tension.

However, in the case of building structures having relatively short lengths of the structural members compared to civil structures such as bridges, the ratio of overstressing becomes excessively large, which causes problems in reinforcing effect and reliability.

On the other hand, the tension force is applied using a hydraulic jack. However, in order to tension or retension the reinforcement using the hydraulic jack, there is a problem that a separate space is required because the reinforcement should be left about 1 m behind the fixing member.

The present invention has been made to solve the above problems, and to provide a reinforcement device and a method thereof that can minimize the loss of tension due to the anchor slip (anchorage slip) used to reinforce the building structure. There is this.

It is another object of the present invention to provide a reinforcement apparatus and a method for reinforcing a reinforcement for reinforcing a structure to easily tension or retension.

In order to solve the above problems, a post-tensioning reinforcement apparatus using a compression grip and a tension nut according to the present invention includes a fixing unit coupled to a structural member of a building structure to be reinforced, and a through hole formed to protrude from the fixing unit. A fixing plate having a supporting member; A compression grip having one end of the reinforcing member inserted in the longitudinal direction thereof, a thread formed on the outer circumferential surface thereof, and inserted into the through hole; And a tension nut formed on an inner circumferential surface of the thread to be joined with the thread to engage with the compression grip.

Preferably, the crimping grip is integrally coupled with the reinforcing material after the reinforcing material is inserted into the hollow portion is compressed.

Here, the reinforcing device is preferably provided to be perpendicular to the support member further comprises a support plate for supporting the load applied to the support member.

Another aspect of the present invention is a post-tensioning reinforcement method using a crimping grip and a tension nut, comprising: (a) coupling both ends of the reinforcing material with the crimping grip having a thread formed on its outer circumferential surface; (b) installing fixing plates on both sides of the reinforcement target part of the structural member, the fixing plate including a fixing unit coupled to the structural member of the building structure to be reinforced and a supporting member installed to protrude from the fixing unit and having a through hole formed therein; (c) installing the compression grips in the through holes of the fixing plates on both sides and fastening the tension nut to the compression grips at the rear of the support member; And (d) rotating the tension nut to tension the reinforcing material.

Preferably, the reinforcement method is to install a load support to the structural member between the fixing plate, the reinforcement is installed so as to pass through the load support.

Preferably, the reinforcement method further comprises the step of re-tensioning the reinforcement by further rotating the tension nut to increase the tension of the reinforcement.

Here, in the step (a), after inserting the reinforcing material into the hollow portion of the crimping grip, the crimping grip and the reinforcing material is integrally combined by pressing the crimping grip, it is preferable to form a thread on the outer peripheral surface of the crimping grip Do.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. Prior to this, terms or words used in the specification and claims should not be construed as having a conventional or dictionary meaning, and the inventors should properly explain the concept of terms in order to best explain their own invention. Based on the principle that can be defined, it should be interpreted as meaning and concept corresponding to the technical idea of the present invention. Therefore, the embodiments described in the specification and the drawings shown in the drawings are only the most preferred embodiment of the present invention and do not represent all of the technical idea of the present invention, various modifications that can be replaced at the time of the present application It should be understood that there may be equivalents and variations.

1 is a plan view showing a post-tensioning reinforcement device using a compression grip and a tension nut according to a preferred embodiment of the present invention, Figure 2 is a perspective view showing a fixing plate of the reinforcement device. 3 is a front view showing the reinforcement of the structural member using the reinforcement device.

Referring to the drawings, the reinforcing device 100 is a fixing plate 20 is coupled to the structural member 90 to be reinforced, the compression grip 30 is connected to the reinforcement 10 and installed on the fixing plate 20 and And a tension nut 40 installed on the crimping grip 30 to tension the reinforcing material 10. In the present specification, the term "reinforcement material" is defined as a meaning including a PC strand that is widely used in a post-tensioning method.

The fixing plate 20 includes a fixing unit 21 coupled to the structural member 90, and a supporting member 23 installed to protrude from the fixing unit 21.

The fixing unit 21 has a coupling hole 22 for coupling with the structural member 90. A coupling hole 22 is installed in the coupling hole 22 to couple the fixing plate 20 to the structural member 90.

The support member 23 is formed with a through hole 24 into which the compression grip 30 is inserted. Preferably, the support member 23 is installed perpendicular to the fixing unit 21. In addition, the fixing plate 21 preferably further includes a supporting plate 25 installed to be perpendicular to the supporting member 23. The support plate 25 supports the load applied to the support member 23.

The crimping grip 30 has a hollow portion into which one end of the reinforcing material 10 is inserted, and a thread 32 formed on an outer circumferential surface thereof. The compression grip 30 is inserted into the through hole 24 and installed.

The hollow part is formed to penetrate the compression grip 30 in the longitudinal direction of the compression grip 30. The thread 32 is for fastening with the tension nut 40. Coupling of the reinforcing material 10 and the compression grip 30 inserted into the hollow portion is made by a compactor.

4A to 4C, when the reinforcement 10 is inserted into the hollow portion and the pressing grip 30 is pressed by using a pressing machine (not shown), the reinforcing material 10 and the pressing grip 30 are integrally formed. Combined. As such, after the reinforcing material 10 and the compression grip 30 are integrally coupled, the thread 32 is formed on the outer circumferential surface of the compression grip 30.

5A and 5B, when the compression grip 30 is pressed by the compactor, the compression grip 30 is coupled with the reinforcement 10 while increasing its length and decreasing its diameter. In particular, when the reinforcing material 10 is a stranded wire, the crimping grip 30 penetrates between element wires of the stranded wires, thereby making the coupling more firm. At this time, it is preferable that the unevenness | corrugation was formed in the inner surface of a hollow part. The unevenness secures the coupling of the reinforcement 10 and the compression grip 30. After the reinforcement 10 and the compression grip 30 are integrally coupled, the thread 32 is formed on the outer circumferential surface of the compression grip 30. As such, when the compression grip 30 and the reinforcement 10 are integrally coupled, loss of tension due to the activity of the fixing means may be minimized.

The tension nut 40 is installed at the rear of the support member 23. The tension nut 40 has a screw thread that matches the screw thread 32 on its inner circumferential surface. That is, the tension nut 40 moves along the thread 32 and tensions or relaxes the reinforcement 10. The tension nut 40 is rotated by a torque wrench. Preferably, the anti-loosening nut 42 for preventing loosening of the tension nut 40 is installed at the rear of the tension nut 40.

Preferably, the reinforcement device 100 has a load support 60 which is installed in the structural member 90 between the fixing plate 20. As shown in FIG. 3, the deflection of the structural member 90 is reduced by providing a load support 60 between the fixing plates 20 and allowing the reinforcing material 10 to pass through the load support 60. The load support 60 may be installed in an appropriate number in consideration of the distance between the fixing plate 20 and the load applied to the structural member 90.

As such, the post-tensioning reinforcement device 100 according to the preferred embodiment of the present invention adjusts the tension of the reinforcement 10 by rotating the tension nut 40. Therefore, it is possible to save time and effort for installation, operation and removal of the hydraulic jack. That is, the tension work or retension work of the reinforcing material 10 can be easily and quickly performed.

6 is a front view illustrating reinforcing structural members using a post tensioning reinforcement device according to another exemplary embodiment of the present invention, and FIG. 7 is a detailed view of part C of FIG. 6.

Referring to the drawings, the reinforcement device 100a includes a fixing plate 20a coupled to the structural member 90a, a compression grip 30a installed on the fixing plate 20a and coupled to the reinforcing material 10, and a compression It is provided with a grip 30a and has a tension nut 40a for tensioning the reinforcing material 10.

The fixing plate 20a includes a fixing unit 21a coupled to the structural member 90a and a supporting member 23a installed to protrude from the fixing unit 21a.

The fixing unit 21a is coupled to the structural member 90a by a coupling member (not shown) such as a bolt. The support member 23a is formed with a through hole into which the compression grip 30a can be inserted. The through hole is formed corresponding to the number of reinforcing materials 10, as shown in FIG.

Preferably, the fixing plate 20a includes a supporting plate 25a installed to be perpendicular to the supporting member 23a. The support plate 25a is installed such that one side thereof is connected to the support member 23a to support the support member 23a, and the other side thereof is connected to the sub support member 26a.

The sub support member 26a is installed to face the support member 23a and includes a through hole through which the reinforcing material 10 can pass. The sub support member 26a not only guides the reinforcement 10 but also prevents the support plate 25a from buckling due to the tension of the reinforcement 10.

The crimping grip 30a includes a hollow portion into which one end of the reinforcing material 10 is inserted, and a thread 32a formed on an outer circumferential surface thereof. The crimping grip 30a has the same structure as the crimping grip 30 described above. Combination of the compression grip 30a and the reinforcement 10 is made by using the above-described compactor.

The tension nut 40a is installed at the rear of the support member 23a. The tension nut 40a is provided with the screw thread which mates with the screw thread 32a in the inner peripheral surface. That is, the tension nut 40a moves along the thread 32a and tensions or relaxes the reinforcement 10. The tension nut 40a is rotated by a torque wrench.

Next, a method of reinforcing the structural member 90 by using the post-tensioning reinforcement device 100 according to the preferred embodiment of the present invention will be described.

First, both ends of the reinforcing material 10 is coupled to the compression grip 30, respectively. Both ends and the compression grip 30 are coupled by inserting the reinforcing material 10 into the compression grip 30 and pressing the compression grip 30 using a press (not shown). After the reinforcing material 10 and the compression grip 30 are integrally coupled to each other, a thread is formed on the outer circumferential surface of the compression grip 30.

Next, the fixing plate 20 and the load support 60 are attached to the structural member 90. The fixing plate 20 is provided on both sides of the portion to be reinforced of the structural member 90. The load support 60 is installed between the fixing plates 20.

After the fixing plate 20 and the load support 60 are installed, the pressing grip 30 is installed in the through hole 24 of the fixing plate 20 on both sides, and the tension nut 40 is attached to the supporting member 23. Fasten to the crimping grip 30 at the rear of the. At this time, the reinforcing material 10 to pass through the load support (60). The load support 60 reduces the deflection of the structural member 90 and reduces the magnitude of the maximum moment generated in the structural member 90.

After installing the crimping grip 30, the tension nut 40 is rotated to apply tension to the reinforcement 10. Rotation of the tension nut 40 is made by a torque wrench (not shown). The tension applied to the stiffener 10 can be easily measured by the rotational speed of the tension nut 40.

If it is necessary to apply additional tension after completing this reinforcement, it is only necessary to rotate the tension nut 40 as necessary. As such, the reinforcement device 100 has an advantage that tension and retension of the reinforcement 10 are easy.

Reinforcement method using a post-tensioning reinforcement device 100a according to another preferred embodiment of the present invention is as follows.

First, the process of coupling both ends of the reinforcing material 10 to the compression grip (30a) is the same as the above-described reinforcing method. After the reinforcing material 10 is coupled to the compression grip 30a, the fixing plate 20a is installed on the structural member 90a to be reinforced. The fixing plate 20a is provided at both sides of the reinforcement target portion of the structural member 90a.

Next, the compression grip 30a is installed to penetrate the through hole and the through hole, and the tension nut 40a is fastened to the compression grip 30a at the rear of the support member 23a.

Next, the tension nut 40a is rotated to introduce tension force to the reinforcement 10. The process of introducing tension to the reinforcement 10 is the same as the above-described reinforcement method.

The post-tensioning reinforcement apparatus using the compression grip and the tension nut according to the present invention and its method have the following effects.

First, the reinforcement can be easily tensioned or retensioned.

Second, the loss of tension due to the activities of settlement means can be minimized.

1 is a plan view showing a post-tensioning reinforcement device using a compression grip and a tension nut in accordance with a preferred embodiment of the present invention.

FIG. 2 is a perspective view showing a fixing plate of the post tensioning reinforcement device of FIG. 1. FIG.

3 is a front view showing the reinforcement of the structural member using the post-tensioning reinforcement device of FIG.

4A-4C are plan views illustrating coupling the reinforcement to the compression grip.

5A is a sectional view taken along the line A-A 'in FIG. 4A;

FIG. 5B is a cross-sectional view taken along line BB ′ in FIG. 4B.

Figure 6 is a front view showing the reinforcement of the structural member using a post-tensioning reinforcement device using a compression grip and a tension nut in accordance with another preferred embodiment of the present invention.

FIG. 7 is a detail view of portion C of FIG. 6; FIG.

8 is a sectional view taken along line VII-VII 'of FIG.

<Description of main reference numerals in the drawings>

10: reinforcing material 20, 20a: fixing plate

30, 30a: crimping grip 40, 40a: tension nut

60: load support 90, 90a: structural member

100, 100a: Post-tensioning reinforcement device using compression grip and tension nut

Claims (7)

A fixing plate including a fixing unit coupled to the structural member of the building structure to be reinforced, and a supporting member installed to protrude from the fixing unit and having a through hole formed therein; A compression grip having one end of the reinforcing member inserted in the longitudinal direction thereof, a thread formed on the outer circumferential surface thereof, and inserted into the through hole; And And a tension nut formed on an inner circumferential surface of the thread to be joined with the thread to be coupled to the compression grip. The method of claim 1, The crimping grip is a post-tensioning reinforcement device using a crimping grip and a tension nut, characterized in that the reinforcement is inserted into the hollow portion and then compressed to be integrally coupled with the reinforcement. The method according to claim 1 or 2, A post tensioning reinforcement apparatus using a compression grip and a tension nut further comprising a support plate installed to be perpendicular to the support member to support a load applied to the support member. (a) coupling both ends of the reinforcement with the crimped grips, each of which is threaded on its outer circumferential surface; (b) installing fixing plates on both sides of the reinforcement target part of the structural member, the fixing plate including a fixing unit coupled to the structural member of the building structure to be reinforced and a supporting member installed to protrude from the fixing unit and having a through hole formed therein; (c) installing the compression grips in the through holes of the fixing plates on both sides and fastening the tension nut to the compression grips at the rear of the support member; And (d) rotating the tension nut to tension the reinforcement; post-tensioning reinforcement method using a compression grip and the tension nut comprising a. The method of claim 4, wherein A post-tensioning reinforcement method using a compression grip and a tension nut, characterized in that a load support is installed on the structural member between the fixing plates and the reinforcement is installed via the load support. The method of claim 4, wherein Re-tensioning the reinforcement by further rotating the tension nut to increase the tension of the reinforcement; Post-tensioning reinforcement method using a compression grip and the tension nut further comprising. The method according to any one of claims 4 to 6, In step (a), After the reinforcing material is inserted into the hollow part of the crimping grip, the crimping grip and the reinforcing material are integrally combined by crimping the crimping grip, and the crimping grip and the tension nut are formed on the outer circumferential surface of the crimping grip. Post tensioning reinforcement method.