KR102118120B1 - Anchorage apparatus for retensioning and anchorage method using the same - Google Patents

Abstract

The present invention relates to an anchorage apparatus capable of retensioning and an anchorage method thereof. According to the present invention, the anchorage apparatus comprises: an anchorage plate (100) supported on the surface of a concrete structure; an interval adjusting member (200) installed in front of the anchorage plate (100); and a movable support member (300) inserted into the interval adjusting member (200). According to the present invention, corrosion of the end of the tendon can be stably prevented.

Description

A fixing device capable of re-tensioning and a fixing method {ANCHORAGE APPARATUS FOR RETENSIONING AND ANCHORAGE METHOD USING THE SAME}

The present invention relates to the field of construction technology, and more particularly, to a fixing device and a fixing method for a tension material.

1 and 2 relates to Korean Registered Patent No. 1065217 (tensile device capable of tension and retension).

As shown in FIGS. 1 and 2, the tensioning device 100 capable of tension and re-tensioning is a structure capable of re-tensioning for long-term durability and easy maintenance, as shown in FIG. 1, a concrete structure A tension member 110 installed inside the sheath 107 of 105 is provided.

The tension member 110 is made of a wire rope 112.

When the post tensioning method is applied using a conventional tension material, the processing and reinforcement of the strand are not easy to handle due to the sheath and the rigidity of the strand.

In particular, the conventional tensioning material using the stranded mono-strand type can be applied to the present apparatus, but the multi-stranded conventional tensioning material is not easy to handle in the present device, so it is not easy to apply.

In addition, since the wave friction coefficient of the conventional steel wire affects the exact reinforcing bar 116 and the arrangement position, it has a problem in that the reinforcing bar 116 that exactly meets the planned strength and ductility when designing the structure has no problem. It is preferable to use the wire rope 112 as the tension member of the apparatus so as not to be affected.

Accordingly, when the wire rope 112 is used as the tension member 110 in the present apparatus, it has a great tensile stress and excellent flexibility comparable to that of a conventional steel wire, and thus has a merit of significantly improving construction performance compared to a conventional steel wire that is difficult to handle. , If these characteristics are utilized in the post-tension method, the performance of the structure and the reduction of construction cost can be brought about, and in particular, the tension member 110 in the correct position and the reinforcement of the reinforcement 116 are made in the concrete structure 105. When designing, it is possible to accurately secure the planned load capacity and ductility.

In addition, the tensioning device 100 capable of tensioning and retensioning according to the present apparatus includes a fixing unit 130 configured to impart prestress to the tensioning member 110 at the end of the tensioning member 110, such a fixing unit 130 ) Is a structure including a bolt part 140 and a nut part 150.

The bolt portion 140 of the fixing portion 130 is further formed with a head portion 144 having a square outer circumferential surface at its outer end portion C, so that the head portion is brought into rotation preventing means such as a spanner, and the bolt portion rotates the nut portion. By not being rotated together by, the end of the tension member 110 is inserted into the inner hole 142 is fitted.

The head portion 144 transfers the movement of the bolt portion 140 by rotation of the nut portion 150 to the steel sleeve 172, and when rotating to the nut portion 150, the bolt portion 140 is not rotated together. In order to prevent this, the outer circumferential surface of the square is formed as a part of the rotation preventing means such as a spanner.

The thread 146 is a portion in which torque is applied to the nut portion 150 to induce the movement of the bolt portion 140, and the nut portion 150 is a portion to which torque is applied by a torque wrench or the like. It can be seen that the tension member 110 fixed to the bolt portion is tensioned and fixed as the bolt portion is moved by the rotation of the nut portion 150.

In addition, the overall strength of the fixing unit 130 is such that the tension member 110 has a sufficient strength so as not to cause acupressure destruction and local buckling of the thread 146 before fracture.

In addition, the tension device 100 capable of tension and retension is fixed to the outer surface (A) of the concrete structure and includes a support portion 160 in the form of a plate having a through hole 162 to allow the tension member 110 to penetrate therethrough. The support 160 is distributed by supporting the prestress applied to the tension member 110 by the fixing unit 130 at the end of the concrete structure 105.

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

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

After the tensioning material 110 is settled, the compression sleeve 170 transmits the movement of the bolt part 140 generated by the torque applied to the nut part 150 to the wire rope 112 and is necessary for the tensioning material 110. Tension (prestress) is applied.

In addition, the tension device 100 capable of tension and re-tension is a tube-shaped member installed between the sheath 107 disposed inside the concrete structure and the inner surface B of the support, as shown in FIGS. 1 and 2, once Settled to be connected to the end of the additional sheath 107, the other end is arranged to communicate with the through-hole 162 of the support, the fixing unit 130 located outside is inserted into the interior to secure a space that can be moved The device guide unit 180 is provided.

As such, the fixing device guide portion 180 serves to secure a space 182 through which the bolt portion 140 can move within the concrete structure 105 after pouring concrete, and the size and length of the bolt portion 140 It may vary depending on the outer diameter and the length of the thread 146 portion, usually about 20dw ~ 25dw of the diameter of the tension material (dw) is the outer diameter, the length (L2) is the thread 146 portion of the bolt 140 Make it the same as the length.

The tensioning device 100 capable of tensioning and retensioning according to the present invention configured as described above, as shown in FIG. 2, prior to pouring concrete inside the concrete mold M, the tensioning member 110 and the sheath 107, The support unit 160 is installed, and after the concrete is poured, a crimping sleeve 170, a fixing unit 130, a bolt unit 140, a nut unit 150, and the like are mounted.

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

However, this prior art had the following problems.

First, a very large load is applied to the fixing unit 130 in which the tension member is settled after the tensioning operation due to the elastic recovery of the tension member, and thus, the tensioning member 130 is exposed to the portion installed inside the concrete structure and exposed to the outside. If the settled part does not form a straight line structure, a very large harmful stress is generated, which adversely affects the structural stability and durability of the structure.

In the prior art, the nut part 150 and the support part 160 are installed so as to be in contact with each other, and there is no reinforcing structure or guide structure between them, and thus there is a problem that the straight structure of the above-mentioned tension member is difficult to be achieved.

Second, as described in the patent specification of the prior art, the structure of the prior art can be applied to the mono-strand type of a stranded wire, but difficult to apply to the multi-strand type.

Third, in the case of a steel wire used as a tension material, a product with a covering is used, but the end for the tensioning operation uses a peeled off coating, which causes corrosion, and after a considerable period of time after the initial installation, re-tensile work is performed. Measures to prevent gastric corrosion should be provided, but there are no such measures in the prior art.

The reference numerals of the prior art are limited to the description of the prior art.

Korean Registered Patent No. 1065217 (Tension device capable of tension and retension)

The present invention has been drawn to solve the above problems, there is no occurrence of harmful stress when settling by tension and retension, it can be applied to the multi-strand method, so that the corrosion at the end of the tension member can be stably prevented The purpose is to present a fixing device and a fixing method capable of re-tensioning.

In order to solve the above problems, the present invention is a fixing device for fixing the ends of a plurality of tension members 10 installed on a sheath of a concrete structure, supported on the surface of the concrete structure, a rotation guide of a circular cross-section structure at the core A fixing plate 100 in which grooves 110 are formed and a plurality of first tension member through-holes 111 are formed in a core portion of the rotation guide groove 110 so that the plurality of tension members 10 penetrate respectively; A female threaded portion 201 is formed on the inner surface, a rotating guide protrusion 210 having a cylindrical structure is formed on the rear side, and a gap adjusting member 200 installed in front of the fixing plate 100; A plurality of wedge member insertion grooves 301 are formed in the front so that the wedge member 20 supporting the ends of the tension member 10 is inserted, and a plurality of second portions are formed in the core so that the plurality of tension members 10 penetrate respectively. Tension material through-hole 302 is formed, is inserted into the space adjusting member 200, the male screw portion 303 is formed on the outer surface to be screwed by the female screw portion 201, a movable support member 300; Including, the movable support member 300 is driven forward or backward by a screw drive by the rotational drive of the spacer member 200, the rotation guide protrusion 210 of the spacer member 200 is the Presenting a fixing device characterized in that the rotation drive of the gap adjusting member 200 is made while being guided by being inserted into the rotation guide groove (110) of the fixing plate (100).

It is preferable that the restraining protrusion 310 is formed outside the front end of the movable support member 300 to contact the front surface of the gap adjusting member 200 to constrain the rearward driving of the movable support member 300.

On the outside of the restraining protrusion 310 of the movable support member 300, when the interval adjusting member 200 is rotated, the rotation of the movable support member 300 is restrained, or the movable support member 300 is temporarily It is preferable that the gripping portion 311 for pulling forward is formed protrudingly.

The rear edge portion of the gap adjusting member 200 is in contact with the front surface of the fixing plate 100, and the rotation guide protrusion 210 of the gap adjusting member 200 is a rotation guide groove of the fixing plate 100 ( 110), it is preferable that it is formed to protrude rearward than the rear edge portion.

It is preferable that the rotation device insertion groove 202 is formed on the outer surface of the space adjustment member 200 so that a device for rotational driving of the space adjustment member 200 is inserted.

The tensioning material 10 is formed with a covering portion 11 as the coating is peeled from the front end to a region located in the rotation guide groove 110 of the fixing plate 100, and the covering portion 11 of the tensioning material 10 is formed. To prevent the front or side outflow of the corrosion inhibitor for preventing corrosion, it is preferable that the outflow prevention cap 400 is installed around the movable support member 300 and the gap adjusting member 200.

In addition to being installed in the rotation guide groove 110 of the fixing plate 100, which is the rear of the rotation guide protrusion 210 of the movable support member 300, to prevent the backflow of the corrosion inhibitor, the plurality of tension materials ( It is preferable that the plurality of third tension member through-holes 501 are formed in the core portion so that 10) penetrates through each other.

A plurality of guide pins 112 are installed in the rotation guide groove 110 of the fixing plate 100 so as to protrude toward the front in an area where the first tension member through hole 111 is not formed, and the leakage preventing plate ( In the 500), a plurality of guide holes 502 are formed to allow the plurality of guide pins 112 to pass through an area where the third tension member through hole 501 is not formed, and the plurality of tension members 10 are installed. In a state where it is not, the combination of the fixing plate 100 and the leakage preventing plate 500 is the guide pin 112 is inserted into the guide hole 502, the fixing plate 100 and the leakage preventing plate 500 The mutual rotation of the is prevented, it is preferable that the first tension member through hole 111 and the third tension member through hole 501 maintain a communication state.

An o-ring 12 installed at a rear end of the uncoated portion 11 of the tension member 10 to prevent a rear outflow of the corrosion inhibitor through the third tension member through hole 501 of the leak prevention plate 500; It is preferable to further include.

The present invention is a fixing method using the fixing device, the step of installing a plurality of tension member 10 on the sheath of the concrete structure; Forming a non-coated portion 11 by peeling off a coating of a partial region of the front end of the tension member 10 exposed to the outside of the sheath; The fixing plate 100 is installed so that the fixing plate 100 is the concrete so that the tension member 10 penetrates the first tension member through hole 111 of the rotation guide groove 110 of the fixing plate 100. To be supported on the surface of the structure, so that the uncovered portion 11 of the tension member 10 is located in the rotation guide groove 110 of the fixing plate 100; Screwing the movable support member (300) to the gap adjustment member (200); In addition to allowing the tension member 10 to penetrate the second tension member through-hole 302 of the movable support member 300, the rotation guide protrusion 210 of the gap adjusting member 200 is the fixing plate 100 Installing the movable support member 300 and the gap adjusting member 200 to be inserted into the rotation guide groove 110 of the; And fixing the tension member 10 by inserting the wedge member 20 into the wedge member insertion groove 301 of the movable support member 300 while the tension member 10 is tensioned. A settlement method is proposed.

The present invention is a fixing method using the fixing device, the step of installing a plurality of tension member 10 on the sheath of the concrete structure; Forming a non-coated portion 11 by peeling off a coating of a partial region of the front end of the tension member 10 exposed to the outside of the sheath; The guide plate 112 of the fixing plate 100 is inserted into the guide hole 502 of the leakage preventing plate 500 to combine the fixing plate 100 and the leakage preventing plate 500 to form a coupling body, , The tension member 10 passes through the first tension member through hole 111 of the rotation guide groove 110 of the fixing plate 100 and the third tension member through hole 501 of the outflow prevention plate 500 in common. In order to install the coupling body, the fixing plate 100 is supported on the surface of the concrete structure, but the uncovered portion 11 of the tension member 10 is provided in the rotation guide groove 110 of the fixing plate 100. Positioning; Screwing the movable support member (300) to the gap adjustment member (200); In addition to allowing the tension member 10 to penetrate the second tension member through-hole 302 of the movable support member 300, the rotation guide protrusion 210 of the gap adjusting member 200 is the fixing plate 100 Installing the movable support member 300 and the gap adjusting member 200 to be inserted into the rotation guide groove 110 of the; Fixing the tension member 10 by inserting the wedge member 20 into the wedge member insertion groove 301 of the movable support member 300 while the tension member 10 is tensioned; Providing a fixation method comprising a; surrounding the movable support member 300 and the space adjusting member 200 to install the spill prevention cap 400, and filling the corrosion inhibitor therein; do.

The present invention proposes a fixing device and a fixing method capable of re-tensioning, which do not generate harmful stress when settling by tension and re-tension, can be applied to a multi-strand method, and can stably prevent corrosion at the end of a tension member. do.

1 and 2 are drawings of the prior art.
3 or less shows an embodiment of the present invention,
Figure 3 is a cross-sectional view of the first use state of the tension device.
Figure 4 is a cross-sectional view of the second use state of the tension device.
5 is a front view of the movable support member.
Figure 6 is a side cross-sectional view of the movable support member.
7 is a front view of the gap adjusting member.
8 is a side cross-sectional view of the gap adjusting member.
9 is a front view of the fixing plate.
10 is a side sectional view of the fixing plate (AA cross-section in FIG. 9).
11 is a side cross-sectional view of the spill prevention cap.
12 is a front view of the leak-proof plate.
Figure 13 is a side cross-sectional view of the spill prevention plate.
14 is a side cross-sectional view (BB cross-section of FIG. 9) of the combination of the fixing plate and the outflow prevention plate.

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

As shown in FIG. 3 or less, the present invention basically relates to a fixing device for fixing the ends of a plurality of tension members 10 installed on a sheath of a concrete structure.

It is supported on the surface of the concrete structure, a circular cross-section structure of the rotating guide groove 110 is formed in the core, and a plurality of first tension members penetrate the core portion of the rotation guide groove 110 so that the plurality of tension members 10 penetrate respectively A fixing plate 100 on which a ball 111 is formed; A female screw portion 201 is formed on the inner surface, a rotating guide protrusion 210 having a cylindrical structure is formed on the rear side, and a gap adjusting member 200 installed in front of the fixing plate 100; A plurality of wedge member insertion grooves 301 are formed in the front so that the wedge member 20 supporting the end of the tension member 10 is inserted, and a plurality of second tension members penetrate through the core so that the plurality of tension members 10 penetrate respectively The ball 302 is formed, is inserted into the interior of the space adjusting member 200, the male screw portion 201 is screwed by the female screw portion 303 is formed on the outer surface of the movable support member 300 is formed, including; .

Here, the movable support member 300 is driven forward or rearward by screw driving by rotational driving of the spacing adjusting member 200, and the rotation guide protrusion 210 of the spacing adjusting member 200 is the fixing plate 100 While being guided by being inserted into the rotation guide groove 110, rotational movement of the gap adjusting member 200 is made.

When the first tensioning operation is completed in a state in which the movable support member 300 is retracted so that the rear end of the movable support member 300 is adjacent to the fixing plate 100 (FIG. 3), a time point in which retension is necessary over time When, by driving the movable support member 300 by the screw drive of the gap adjustment member 200, it can be made to be re-tensioned against the tension member 10 (Fig. 4).

When the initial tension work is completed in a state in which the movable support member 300 is advanced so that the rear end of the movable support member 300 is spaced from the fixing plate 100 (FIG. 4), the removal and replacement of some members of the concrete structure When this is necessary, by driving the movable support member 300 rearward by the screw drive of the gap adjusting member 200, release the tension of the tension member 10 to perform the above operation (FIG. 3), and after completion of the operation Again, by driving the movable support member 300 forward by the screw drive of the gap adjusting member 200, the tension force with respect to the tension member 10 can be restored (FIG. 4).

The fixing device according to the present invention, when driving the front and rear of the movable support member 300 by the screw driving by the rotational drive of the spacing adjusting member 200 as described above, the rotation guide protrusion 210 of the spacing adjusting member 200 A is inserted into the rotation guide groove 110 of the fixing plate 100 and guided so that the rotational movement of the gap adjusting member 200 is made, so that the straight line structure of the external exposed portion and the internal insertion portion of the tension member can be stably achieved. The occurrence of stress can be prevented.

In addition, the movable support member 300 is formed with a plurality of wedge member insertion grooves 301 in the front so that the wedge member 20 supporting the end of the tension member 10 is inserted, and the plurality of tension members 10 penetrate each A plurality of second tension member through-holes 302 are formed in the core portion so as to be inserted into the gap adjusting member 200 and screwed by the female screw portion 201 to form a male screw portion 303 on the outer surface (integrated type) Structure), and since the movable support member 300 of this structure has a structure in which it is driven forward and backward by screw driving of the gap adjusting member 200, there is an effect that it can be applied to a multi-strand method unlike the prior art. .

On the outside of the front end of the movable support member 300, a restraining protrusion 310 may be formed to contact the front surface of the gap adjusting member 200 to constrain the rearward driving of the movable support member 300, which is a movable support member. The rear end of 300 serves to prevent damage to the member, loss of tension, and the like due to direct contact with the fixing plate 100 (FIGS. 5 and 6 ).

When the gripping part 311 protrudes outside the restraining protrusion 310 of the movable support member 300, when the rotation control member 200 is rotated, the rotation of the movable support member 300 is restrained, or the movable support There is an effect that it is possible to easily and stably perform the operation of temporarily pulling the member 300 forward.

The rear edge portion of the gap adjusting member 200 is supported in contact with the front surface of the fixing plate 100, and the rotation guide protrusion 210 of the gap adjusting member 200 is inserted into the rotation guide groove 110 of the fixing plate 100 If possible, when taking a structure protruding backward from the rear edge portion, the elastic recovery force of the tension member is stably transmitted to the concrete structure through the movable support member 300, the gap adjusting member 200, and the fixing plate 100, On the premise of such a load transmission structure, it is possible to maintain the straight structure of the tension member by the rotation guide protrusion 210 and the rotation guide groove 110 described above, so that effects such as the occurrence of harmful stress can be stably prevented. have.

When the rotation device insertion groove 202 is formed on the outer surface of the space adjustment member 200, a device for rotation driving of the space adjustment member 200 is inserted therein, and the rotation drive operation of the space adjustment member 200 is stable. Can be done with

The tensioning material 10 is formed with a covering 11 to which the coating is peeled from the front end to a region located in the rotation guide groove 110 of the fixing plate 100 for the tensioning operation.

To prevent the front or side outflow of the corrosion inhibitor for preventing corrosion of the uncoated portion 11 of the tension member 10, the outflow prevention cap 400 is surrounded around the movable support member 300 and the gap adjusting member 200. ) Is preferably installed (Fig. 11).

Outflow prevention cap 400 is composed of a cylindrical body portion 410 and a coupling portion 420 formed at the rear edge, and the coupling portion 420 is bolted to the edge portion of the fixing plate 100. .

The corrosion inhibitor may be discharged to the rear side (inside the concrete structure) through the first tension member through hole 111 of the fixing plate 100.

In order to prevent this, a plurality of third tension member through holes 501 having a plurality of third tension member through holes 501 are formed in the core so that the plurality of tension members 10 penetrate each of the rotation guide protrusions 210 of the movable support member 300. It is preferable to be installed in the rotation guide groove 110 of the rear fixing plate 100 (Fig. 12, 13).

The upper fixing plate 100 and the leakage preventing plate 500 should be installed at the ends of the tension member 10 exposed to the outside of the concrete structure. To this end, all the tension members 10 are rotation guide grooves of the fixing plate 100 ( After passing through the first tension member through hole 111 of 110), it is necessary to allow the tension member 10 to pass through the third tension member through hole 501 of the outflow prevention plate 500 again, so installing each of them is cumbersome. to be.

Therefore, a plurality of guide pins 112 are installed in the rotation guide groove 110 of the fixing plate 100 so as to protrude toward the front in an area where the first tension member through hole 111 is not formed, and the leakage preventing plate 500 is provided. It is preferable to take a structure in which a plurality of guide holes 502 are formed such that a plurality of guide pins 112 penetrate through regions in which the third tension member through holes 501 are not formed (FIGS. 9, 10, 12, 13). ).

This is, before being installed on the plurality of tension members 10, the fixing plate 100 and the leakage preventing plate so that the guide pin 112 of the fixing plate 100 is inserted into the guide hole 502 of the leakage preventing plate 500. Combinations of 500 may be formed to form a combination, and the combination of the fixing plate 100 and the outflow prevention plate 500 is a guide pin 112 is inserted into the guide hole 502, so that the fixing plate 100 and the outflow The mutual rotation of the prevention plate 500 is prevented, so that the first tension member through-hole 111 and the third tension member through-hole 501 maintain a communication state, thereby improving workability (FIG. 14).

In order to prevent the backflow of the corrosion inhibitor through the gap between the rear end of the non-coated portion 11 of the tension material 10 and the third tension material through-hole 501 of the outflow prevention plate 500, the uncoated portion of the tension material 10 It is preferable that the o-ring 12 of the packing structure is installed at the rear end of (11) (FIGS. 3 and 4).

Hereinafter, an embodiment of the fixing method using the fixing apparatus according to the present invention will be described.

A plurality of tension members 10 are installed on the sheath of the concrete structure, and a covering of a partial region of the front end of the tension member 10 exposed to the outside of the sheath is peeled off to form the uncovered portion 11.

The connector 40 and the anchor casting member 30 are coupled to the sheath to secure the grouting area.

The guide pin 112 of the fixing plate 100 is inserted into the guide hole 502 of the leakage preventing plate 500 so that the fixing plate 100 and the leakage preventing plate 500 are combined to form a coupling body (FIG. 14) ), so that the tension member 10 passes through the first tension member through hole 111 of the rotation guide groove 110 of the fixing plate 100 and the third tension member through hole 501 of the outflow prevention plate 500 in common, By installing the coupling so that the fixing plate 100 is supported on the surface of the concrete structure, the uncovered portion 11 of the tension member 10 is positioned in the rotation guide groove 110 of the fixing plate 100 (FIG. 3, 9,10,12,13)

The movable support member 300 is screwed to the gap adjusting member 200, which can be made in the reverse state (FIG. 3) or the advanced state according to the above-described need. (Figure 4).

In addition to allowing the tension member 10 to penetrate the second tension member through hole 302 of the movable support member 300, the rotation guide protrusion 210 of the gap adjusting member 200 is provided with a rotation guide groove of the fixing plate 100. To be inserted into the 110, the movable support member 300 and the space adjusting member 200 are installed.

In the state in which the tension member 10 is tensioned, the wedge member 20 is inserted into the wedge member insertion groove 301 of the movable support member 300 to fix the tension member 10.

The outflow prevention cap 400 is installed around the movable support member 300 and the gap adjustment member 200, and a corrosion inhibitor is filled therein.

The above is merely a description of some of the preferred embodiments that can be implemented by the present invention, so, as is well known, the scope of the present invention should not be construed as being limited to the above embodiments, and the present invention described above. It will be said that both the technical idea and the technical idea together with the fundamental are included in the scope of the present invention.

10: tension material 11: no skin
12: O-ring 20: wedge member
100: fixing plate 110: rotating guide groove
111: first tension member through hole 112: guide pin
200: spacing adjustment member 201: female thread
202: insertion groove of the rotating device 210: rotating guide protrusion
300: movable support member 301: wedge member insertion groove
302: second tension member through hole 303: male thread
310: restraint protrusion 311: gripping part
400: leak prevention cap 500: leak prevention plate
501: Third tension member through hole 502: Guide ball

Claims (11)

As a fixing device for fixing the ends of a plurality of tension member 10 is installed on the sheath of the concrete structure,
It is supported on the surface of the concrete structure, a circular cross-section structure of the rotating guide groove 110 is formed in the core portion, the plurality of first to the core portion of the rotation guide groove 110 so that each of the plurality of tension member 10 penetrates The fixing plate 100 in which the tension member through-hole 111 is formed;
A female threaded portion 201 is formed on the inner surface, a rotating guide protrusion 210 having a cylindrical structure is formed on the rear side, and a gap adjusting member 200 installed in front of the fixing plate 100;
A plurality of wedge member insertion grooves 301 are formed in the front so that the wedge member 20 supporting the ends of the tension member 10 is inserted, and a plurality of second portions are formed in the core so that the plurality of tension members 10 penetrate respectively. Tension material through-hole 302 is formed, is inserted into the space adjusting member 200, the male screw portion 303 is formed on the outer surface to be screwed by the female screw portion 201, a movable support member 300; Including,
The movable support member 300 is driven forward or rear by screw driving by the rotational drive of the gap adjusting member 200,
As the rotation guide protrusion 210 of the spacing adjustment member 200 is inserted and guided in the rotation guide groove 110 of the fixing plate 100, rotational movement of the spacing adjustment member 200 is made,
The rear edge portion of the gap adjusting member 200 is in contact with the front of the fixing plate 100,
A fixing device, characterized in that the rotation guide protrusion 210 of the gap adjusting member 200 is protruded rearward than the rear edge portion to be inserted into the rotation guide groove 110 of the fixing plate 100. According to claim 1,
A fixing device, characterized in that a restraining protrusion 310 is formed outside the front end of the movable support member 300 to contact the front surface of the gap adjusting member 200 to constrain the rearward driving of the movable support member 300. . According to claim 1,
On the outside of the restraining protrusion 310 of the movable support member 300, when the interval adjusting member 200 is rotated, the rotation of the movable support member 300 is restrained, or the movable support member 300 is temporarily Fixing device characterized in that the gripping portion 311 for pulling forward to the furnace is formed protruding. delete According to claim 1,
A fixing device, characterized in that a rotation device insertion groove 202 is formed on the outer surface of the space adjusting member 200 so that a device for rotational driving of the space adjusting member 200 is inserted. According to claim 1,
The tension material 10 is formed in the uncovered portion 11 as the coating is peeled from the front end to the region located in the rotation guide groove 110 of the fixing plate 100,
To prevent the front or side outflow of the corrosion inhibitor for preventing the corrosion of the uncoated portion 11 of the tension member 10, the outflow prevention cap surrounds the periphery of the movable support member 300 and the gap adjusting member 200. 400) is characterized in that the fixing device is installed. The method of claim 6,
In addition to being installed in the rotation guide groove 110 of the fixing plate 100, which is the rear of the rotation guide protrusion 210 of the movable support member 300, to prevent the backflow of the corrosion inhibitor, the plurality of tension materials ( 10) a plurality of third tension member through-hole 501 is formed in the core portion so as to penetrate each outflow prevention plate 500;
Fixing apparatus further comprising. The method of claim 7,
A plurality of guide pins 112 are installed in the rotation guide groove 110 of the fixing plate 100 so as to protrude toward the front in an area where the first tension member through hole 111 is not formed,
A plurality of guide holes 502 are formed on the leakage preventing plate 500 to allow the plurality of guide pins 112 to pass through regions in which the third tension through holes 501 are not formed.
In the state in which the plurality of tension members 10 are not installed, the fixing plate 100 and the outflow prevention plate 500 are combined with the fixing pins by inserting the guide pin 112 into the guide hole 502. 100) and the rotation prevention plate 500 is prevented from mutually rotating, so that the first tension member through hole 111 and the third tension member through hole 501 maintains a communication state. The method of claim 7,
An o-ring 12 installed at a rear end of the uncoated portion 11 of the tension member 10 to prevent a rear outflow of the corrosion inhibitor through the third tension member through hole 501 of the leak prevention plate 500; of
Fixing apparatus further comprising. As a fixing method using the fixing device of claim 1,
Installing a plurality of tension members 10 on the sheath of the concrete structure;
Forming a non-coated portion 11 by peeling off a coating of a partial region of the front end of the tension member 10 exposed to the outside of the sheath;
The fixing plate 100 is installed so that the fixing plate 100 is the concrete so that the tension member 10 penetrates the first tension member through hole 111 of the rotation guide groove 110 of the fixing plate 100. To be supported on the surface of the structure, so that the uncovered portion 11 of the tension member 10 is located in the rotation guide groove 110 of the fixing plate 100;
Screwing the movable support member (300) to the gap adjustment member (200);
In addition to allowing the tension member 10 to penetrate the second tension member through-hole 302 of the movable support member 300, the rotation guide protrusion 210 of the gap adjusting member 200 is the fixing plate 100 Installing the movable support member 300 and the gap adjusting member 200 to be inserted into the rotation guide groove 110 of the;
Fixing the tension member 10 by inserting the wedge member 20 into the wedge member insertion groove 301 of the movable support member 300 while the tension member 10 is tensioned;
Settling method comprising a. As a fixing method using the fixing device of claim 8,
Installing a plurality of tension members 10 on the sheath of the concrete structure;
Forming a non-coated portion 11 by peeling off a coating of a partial region of the front end of the tension member 10 exposed to the outside of the sheath;
The guide plate 112 of the fixing plate 100 is inserted into the guide hole 502 of the leakage preventing plate 500 to combine the fixing plate 100 and the leakage preventing plate 500 to form a coupling body, , The tension member 10 passes through the first tension member through hole 111 of the rotation guide groove 110 of the fixing plate 100 and the third tension member through hole 501 of the outflow prevention plate 500 in common. In order to install the coupling body, the fixing plate 100 is supported on the surface of the concrete structure, but the uncovered portion 11 of the tension member 10 is provided in the rotation guide groove 110 of the fixing plate 100. Positioning;
Screwing the movable support member (300) to the gap adjustment member (200);
In addition to allowing the tension member 10 to penetrate the second tension member through-hole 302 of the movable support member 300, the rotation guide protrusion 210 of the gap adjusting member 200 is the fixing plate 100 Installing the movable support member 300 and the gap adjusting member 200 to be inserted into the rotation guide groove 110 of the;
Fixing the tension member 10 by inserting the wedge member 20 into the wedge member insertion groove 301 of the movable support member 300 while the tension member 10 is tensioned;
Installing the spill prevention cap 400 around the movable support member 300 and the space adjusting member 200 and filling a corrosion inhibitor therein;
Settling method comprising a.

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