KR20160099151A - Girder with anchorage device for tendon axis displacement control - Google Patents

Abstract

The present invention relates to a girder with an anchorage apparatus for tendon axis adjustment, to easily match axes of anchor heads anchored in an anchorage device buried in the inside of a girder after tensioning to improve a pre-stress introduction effect. According to the present invention, the anchorage apparatus for tendon axis adjustment comprises: an anchorage device including an anchoring plate; an anchor head supported in the anchoring plate; and an anchor head support block which includes a horizontal block where the anchor head and the anchor head support block come in one-point or surface contact, and an extended horizontal block integrally formed with the horizontal block is fixed and installed into the anchoring plate. The horizontal block is a rectangular block, and makes the anchor head support block supported in the anchoring plate by one-point contact between an outer circumferential surface of the anchor head and the horizontal block.

Description

TECHNICAL FIELD [0001] The present invention relates to a girder provided with a fixing device for a torsion-

The present invention relates to a girder provided with a fixing device for a tenter material center axis adjustment. More specifically, it is possible to easily align the center axes of the anchor heads to be fixed after the tension to the fixing holes buried in the girders, and to improve the effect of introducing the prestress using the spacers for tension members, The present invention relates to a girder.

FIG. 1A is a view showing an installation view of an anchor head 20 and a fixture 10 buried in a conventional concrete concrete girder.

First, like the PSC girder, the girder means a beam member for introducing the prestress, and the fixture 10 is a kind of housing that is installed to penetrate the tension member 30 used for the prestress introduction.

The right end of the fixing port 10 is formed in the form of a corrugated pipe so as to connect the sheath 40 for tension material installed inside the girder and fix the fixing head 11 and the fixing head 11 made of casting or the like to the corrugated pipe, And a fusing plate 13 for dispersing local stress while being located at a predetermined position.

The tension member 30 passing through the fixing hole 10 is drawn out of the fixing hole 10 and passes through the anchor head 20. After the tension member 30 passing through the anchor head 20 is tensed, The tension member is fixed to the anchor head 20 using a wedge by using the wedge 50.

At this time, the anchor head 20 is supported by the fusing plate 13 of the fixing head 11 by the prestress.

However, in the process of fixing a plurality of the tension members 30 individually or after tensioning, the anchor head 20 moves upward, downward, leftward, and rightward on the fixing plate 13 so that the center axis of the fixing port 10, The center axes of the heads 20 do not actually coincide with each other, which is more likely to occur when the tension members are disposed inside the girders in the form of a parabola.

The prestress introduced by the tension member can not be properly introduced into the girder, so that the tension member 30 is tensioned and fixed so that the central axis of the fixation port 10 and the central axis of the anchor head 20 coincide with each other The quality control in the field was often less than expected.

Furthermore, in the case of a bridge girder using a conventional prestressed concrete, when an excessive load or crack is generated during use due to unattached or attached tensions, or when the load capacity is insufficient due to an overloaded vehicle, a separate reinforcing method is introduced Maintenance and reinforcement shall be carried out.

For this purpose, as shown in FIG. 1B, a pair of or more unbonded tension members (A, which is formed by wrapping a skin on the outer surface of the tensile material) are disposed in the sheath (P) of the prestressed concrete (G) The tension member B is tensioned after inserting the tension member W made of the tension member A and the tension member W made of the tension member B A girder having a structure in which the girder is exposed to the outside of the girder in a non-tensioned state has been proposed.

When the girder is subjected to excessive sagging or cracking during use of the bridge or when the load bearing capacity of the girder is insufficient due to the passage of an overload vehicle, the unbonded tension member (A) is moved to a separate tension device The load-carrying capacity of the girder can be easily and effectively reinforced.

However, such an unbonded tension member A is inserted into the sheath of the girder together with a plurality of other tension members B, which rub against the tension member B when inserted into the sheath, The skin of the tension member (C) was peeled and damaged.

Therefore, when the mortar is grouted in the sheath (P) due to the skin being peeled off as in the case of the attached tension member (B), the unbonded tension member is exposed to the mortar so that the tension of the non- In addition, when the mortar is hardened, it is not tensed when the tension is applied to the tension device such as a hydraulic jack, which causes a problem that the unbonded tension material becomes useless.

In order to solve such a problem, as shown in FIG. 1B, a pair of unbonded tension members 51 having a predetermined length and to which the unbonded tension member A is inserted are installed on both sides of the center portion, A plurality of mounting stress holes 52, into which the tension members B are inserted, are provided on the outside of the tension member holes 51 in a state where the outer ends of both ends are cut,

When the unbonded tension member A and the attached tension member B are inserted into the sheath P of the girder, the unbonded tension member A and the attached tension member B are not twisted to each other, The protective holder 50 of the prestressed concrete tension member which is free from grouting and can effectively tense the unbonded tension member A even when the unbonded tension member A is tilted in order to reinforce the load carrying capacity of the girder Is introduced.

However, such a protection holder 50 can not stably hold the unbonded tension member A and the attached tension member B (refer to FIG. 1) at the correct position by releasing the position of the unbonded tension member A and the attached tension member B, ) Can not be fixedly installed.

Such a prior art protective sheath 50 of a prestressed concrete tensioning material may also damage the skin C of the unbonded tensioning material A while leaving its position on the unbonded tensioning material A and the attached tensioning material B, There is a problem that a part of the skin of the taut material still peels off.

Accordingly, it is an object of the present invention to provide a girder provided with a fixation device for a center member for a torsion spring which can introduce a prestress more efficiently since the tension member can be tensioned and fixed in a state in which the center axis of the anchor- This is a technical problem to be solved.

In order to achieve the above object,

First, by setting the anchor head supporting block capable of restraining the position of the anchor head in advance on the fixing plate, and positioning the anchor head in contact with the anchor head supporting block, it is possible to easily set the center axis of the anchor head and the anchor head And when the prestress by the tension member is introduced, the anchor head is supported by the anchor head support block to restrain the movement. Thus, the operator does not need to make efforts to align the center axis of the anchor head with the anchor hole.

Second, the anchor head support block may be fixed to the surface of the anchor head so that one side of the anchor head can be supported, and may be formed as a kind of support block. Thus, the anchor head and the anchor head supporting block are brought into a supported state by one point contact with each other.

At this time, since the anchor head supporting block by the one-point contact restrains movement of the anchor head only in one direction, the anchor head supporting block is formed into a shape having a receiving groove, for example, a U-shaped receiving portion, When the part is inserted and supported, point contact occurs in different directions, so that the anchor head can be restrained even by three-point contact.

Further, if the contact surface of the anchor head supporting block is formed of the curved surface portion S in the same shape as the contact surface of the anchor head so that the surface contact is not the point contact, more stable anchor head support is possible and restraint becomes easy.

In addition, one side of the anchor head can be completely inserted into the seating groove formed in the fixing plate, so that stable anchor head restraint can be achieved.

Third, the present invention provides a spacer of a prestressing concrete-use tough material for more effectively utilizing a fixing device for torsion centering structure adjustment. Wherein the spacers are formed to penetrate through the unbonded tenter holes into which the unbonded tensions are inserted and have a wedge at each end of the unbonded tenter holes that are pressed into and secured to the unbonded tensions to prevent the flow of spacers on the unbonded tensions Wherein the fixing means comprises a ring-shaped protrusion protruding from the outer surface of the fixing means, and a ring-shaped concave groove is formed in the inner circumferential surface of the unbonded tension member hole so that the ring-shaped protrusion is fitted in the ring- Which is formed so as to be fixed to both ends of the adhesion tension member hole.

According to the present invention, the operator can easily introduce the prestress into the girder by aligning the center axis of the anchor head with the fixture in the girder, and PT work is possible in a state where the position of the anchor head is restricted, .

Further, in providing the spacer according to the kind of the tension member in matching the center axis of the anchor head with the fixture, it is very advantageous in quality control of the tension member.

According to the present invention, the wedges, which are press-fit-fitted into both ends of the unbonded tentering hole in the PSC girder with respect to the unbonded torsion spring, prevent the flow of the body of the spacer on the unbonded torsion spring and fix it in the correct position, It is possible to effectively prevent display breakage of the generated unbonded toughening material.

FIG. 1A is an installation view of a conventional fixing member and an anchor head,
1B is a perspective view and a cross-sectional view of a conventional unbonded tensioner and a spacer mounted on the attached tensioner,
FIGS. 2A, 2B, 2C, and 2D are views showing an example of a fixing device for a central processing unit according to the present invention,
FIG. 3 is a view showing an example of using a fixing device for a central processing unit and a spacer according to the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings, which will be readily apparent to those skilled in the art. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In order to clearly illustrate the present invention, parts not related to the description are omitted, and similar parts are denoted by like reference characters throughout the specification.

Throughout the specification, when an element is referred to as "comprising ", it means that it can include other elements as well, without excluding other elements unless specifically stated otherwise.

[Fixing Apparatus (100) for Central Construction Adjustment According to the Present Invention]

FIGS. 2A, 2B, 2C, and 2D are exemplary views of a fixing device 100 for a central processing unit according to the present invention. Each of the fixing devices 100 for central structural adjustment is divided according to the supporting method of the fixing plate 113 constituting the anchor head supporting block 200 and the fixing device 100 for center-tune adjustment.

[Example 1]

FIG. 2A is an exemplary view of a fixing device 100 for a tenter material center-tune adjustment according to a first embodiment of the present invention.

First, the fixing device 100 for the tie member center-tie fixation can be purchased as a prefabricated product, and if the separate production facility for the present invention is required, the purchase price of the fixing device 100 for the tie member center-

Accordingly, only the anchor head supporting block 200 in the form of a block capable of supporting the anchor head 120 is additionally installed in the fixing hole 110 constituting the fixing device 100 for a center member for adjusting tensions.

The fixing device 100 for a tenter material central axis adjustment includes an anchor head 120 and a fixing hole 110 embedded in a girder.

First, the girder is a beam member for introducing a prestress like a PSC girder, and is not limited to a member provided with other fixing devices.

The end of the fixing port 110 is formed as a corrugated pipe type and has a fixing head 111 formed integrally with the corrugated tube so as to connect the sheath for the tension member installed in the inside of the girder, And a fusing plate 113 formed integrally with the reinforcing bar 112 and the fixing head 111 to disperse local stress while being positioned on the surface of the girder.

At this time, the fusing plate 113 may be formed to be embedded or protruded on one side of the girder, for example, in the form of a rectangular plate. The anchor head supporting block 200 is fixed to the fusing plate 113.

The anchor head supporting block 200 according to the first embodiment is configured such that the anchor head 120 and the anchor head supporting block 200 are in contact with each other at one point (indicated by one point in FIG. 2A) And a horizontal block 210, which is a rectangular parallelepiped block that is in one-point contact with the outer peripheral surface of the head.

In this case, when the horizontal block 210 is directly fixed to the fixing plate 113, stress can be concentrated on a portion where the horizontal block and the fixing plate are in contact with each other, and the anchor head supporting block 200 is fixed A cross-sectional loss of the horizontal block 210 may occur when the fastener 260 is fastened.

An extended horizontal block 220 having a larger cross section than the horizontal block 210 is integrally formed with the horizontal block 210. The extended horizontal block 220 is fixed to the fixing plate 113 by a fastener such as an anchor bolt (260).

The anchor head supporting block 200 composed of the horizontal block 210 having the two rectangular cross sections and the extended horizontal block 220 is fixed to the fixing plate 113 and is fixed to the anchor head supporting block 200 It can be seen that the anchor head 120 is supported by the point contact.

Accordingly, the anchor head supporting block 200, which imposes stress dispersion on the anchor head 120 and the prestress, effectively restrains the movement of the anchor head 120 due to the tension and fixation of the tension member, It becomes possible to introduce the prestress into the girder.

The anchor head supporting block 200 which supports the anchor head 120 in contact with the lower portion of the anchor head 120 restrains the upward, downward, leftward and rightward movement of the anchor head 120 in the fixing plate 113 when the tension member is tensed and fixed The center axis of the fixing member 110 and the center axis of the anchor head 20 can be aligned with each other when the tension member is tensed and fixed, thereby enhancing the effect of introducing the prestress by the tension member.

[Example 2]

FIG. 2B is an exemplary view of a fixing device 100 for a tenter material center-tune adjustment according to a second embodiment of the present invention.

The second embodiment differs from the first embodiment in that the horizontal block 210 of the anchor head supporting block 200 is a block having a rectangular cross section in the first embodiment, while a U-shaped horizontal block is adopted in the second embodiment There is a difference.

Specifically, as shown in FIG. 2B, the fixing device 100 for a center member for adjusting a tension member according to the second embodiment also includes a fixing hole 110 and an anchor head 120, which are embedded in a girder.

The fixture 110 is also formed in the shape of a corrugated tube so that the sheath for the tension member installed inside the girder is connected to the fixture head 110. The fixation head 111 made of cast iron or the like is embedded in the corrugated tube, And a fusing plate 113 for dispersing local stress while positioning the fixing head 111 on the surface of the girder.

At this time, the fusing plate 113 may be formed to be embedded or protruded on one side of the girder in the form of a rectangular plate. The anchor head supporting block 200 is fixed to the fusing plate 113.

The anchor head supporting block 200 according to the second embodiment is configured such that the anchor head 120 and the anchor head supporting block 200 are in contact with each other at three points (indicated by three dots in FIG. 2B) And a U-shaped horizontal block 230 contacting the outer peripheral surface of the head at three points.

That is, the outer circumferential surface of the anchor head 120 is supported at three points on the inner side of the U-shaped horizontal block 230, so that the anchor head 120 is inserted and supported inside the U-shaped horizontal block 230 .

When the U-shaped horizontal block 230 is directly fixed to the fusing plate 113, the stress may be concentrated on a portion where the U-shaped horizontal block 230 and the U-shaped horizontal block 230 contact with the fixing plate , A cross-sectional loss of the U-shaped horizontal block 230 may occur when a fastener 260 for fixing the anchor head supporting block 200 to the fixing plate 113 is fastened.

An extended horizontal block 220 having a larger cross section than the U-shaped horizontal block 230 is integrally formed with the U-shaped horizontal block 230. The extended horizontal block 220 is fixed to the anchor bolt As shown in FIG.

The anchor head supporting block 200 is fixed to the fixing plate 113 and the anchor head 120 is set by three-point contact with the anchor head supporting block 200.

The anchor head supporting block 200 which imposes stress dispersion on the anchor head 120 and the prestress also restrains the movement of the anchor head 120 due to the tension and fixation of the tension member, It is possible to introduce a prestress into the system.

[Example 3]

FIG. 2C is an exemplary view of a fixing device 100 for a tenter material center-tune adjustment according to a third embodiment of the present invention.

The third embodiment differs from the first embodiment in that the horizontal block 210 of the anchor head supporting block 200 is a rectangular cross-section block in the first embodiment, while the horizontal block 210 in the third embodiment is a curved horizontal block There are differences in points.

Specifically, as shown in FIG. 2C, the fixing device 100 for a center member for adjusting a tenter material according to the third embodiment also includes a fixing hole 110 and an anchor head 120, which are embedded in a girder.

The fixation port 110 also has a corrugated pipe shape at the end thereof to connect the sheath for the tension member installed inside the girder. The fixation head 111, which is made of cast iron or the like, and the fixing head 111 are wrapped around the corrugated pipe, And a fusing plate 113 for dispersing local stress while positioning the fixing head 111 on the surface of the girder.

At this time, the fusing plate 113 may also be formed in a rectangular plate shape so as to be embedded or protruded on one side of the girder, and the anchor head supporting block 200 is fixedly installed on the fusing plate 113.

The anchor head supporting block 200 according to the third embodiment is a type in which the anchor head 120 and the anchor head supporting block 200 are brought into surface contact with each other and is a curved horizontal block which is in surface contact with the outer peripheral surface of the anchor head, 240, respectively.

That is, it can be seen that a part of the outer circumferential surface of the anchor head 120 is supported by the curved surface portion C of the curved horizontal block 240.

As a result, the contact area between the anchor head and the anchor head support block 200 is increased, which makes it possible to more stably support the anchor head.

In this case, when the curved horizontal block 240 is directly fixed to the fixing plate 113, stress can be concentrated on the portion where the curved horizontal block 240 and the curved horizontal block 240 contact with the fixing plate, When the fastener 260 for fixing the anchor head supporting block 200 is fastened to the fixing plate 113, a sectional loss of the curved horizontal block 240 may occur.

An extended horizontal block 220 having a larger cross section than the curved horizontal block 240 is integrally formed with the curved horizontal block 240 and the extended horizontal block 220 is fixed to the fixing plate 113 by an anchor bolt As shown in FIG.

As a result, the anchor head supporting block 200 is fixed to the fixing plate 113, and the anchor head 120 is set by surface contact with the anchor head supporting block 200.

As a result, the anchor head supporting block 200, which imposes stress dispersion on the anchor head 120 and the prestress, also restrains the movement of the anchor head 120 due to the tension and fixation of the tension member, It becomes possible to introduce the prestress into the girder.

[Example 4]

FIG. 2D is an exemplary view of a fixing apparatus 100 for a central processing unit according to a fourth embodiment of the present invention.

The fourth embodiment differs from the first embodiment in that the horizontal block 210 is a rectangular cross-section block in the case of the first embodiment, while the anchor head supporting block 200 in block form is separately used in the case of the fourth embodiment And the entire surface of the anchor head 120 is partially inserted into the fusing plate 113.

The fixing device 100 for a central processing unit according to the fourth embodiment also includes a fixing unit 110 and an anchor head 120 embedded in a girder.

The fixation port 110 also has a corrugated pipe shape at the end thereof to connect the sheath for the tension member installed inside the girder. The fixation head 111, which is made of cast iron or the like, and the fixing head 111 are wrapped around the corrugated pipe, A reinforcing bar 112 to be installed, and a fixing plate 113 for dispersing local stress while positioning the fixing head 111 on the surface of the girder.

At this time, the fusing plate 113 may be formed to be embedded or protruded on one side of the girder in the form of a rectangular plate, and the anchor head supporting block 200 may be fixed to the fusing plate 113.

A circular support groove 250 may be formed in the front surface of the fixing plate 113 in accordance with the shape of the anchor head 120 so that the front surface of the anchor head 120 may be partially inserted into the support groove 250. [ So as to be supported.

As a result, a substantial contact area of the anchor head and the anchor head supporting block 200 is increased, which makes it possible to more stably support the anchor head.

[Fixing Apparatus 100 and Spacer (400) for Central Construction Adjustment According to the Present Invention)

FIG. 3 is a perspective view showing the tension member 300 and the tension member spacer 400 which are fixed after the tensioning in the fixing device 100 for center-tune adjustment installed on a girder (not shown) of the present invention.

The non-attaching strap 300a and the attaching strap 300b may be used together to separate the unbonded strap 300a and the attaching strap while maintaining a distance from each other. It becomes advantageous for settlement. The unbonded taut material 300a is a tension material wrapped around the covering 310a.

The spacers 400 are provided to separate the unbonded tensions and the attached tensions.

As shown in FIG. 3,

A pair of unbonded tongue holes 420 having a predetermined length and into which the unbonded tongues 300a are inserted are formed to penetrate the center portion and an attachment tongue 300b is inserted outside the unbonded tongue holes 420 A body portion 410 provided with a plurality of adhesive stress holes 430 in a state of being cut at both outer ends; And

And fixing means 450 having a pair of unbonded tongue holes formed in the body portion 410 so as to be opposed to each other and fitted to the through holes of the inner central portion and having wedges each press- So

The fixing means 450 press-fitted into both ends of the unattached tentering hole 420 with respect to the respective unbonded tensions 300a are fixed to prevent the flow of the body 410 on the unbonded tensions 300a do.

At this time, the fixing means 450 has a ring-shaped protrusion 460 protruding from the outer surface of each fixing means 450, and a ring-shaped concave groove (not shown) is formed on the inner circumferential surface of the non- Like protrusions 460 are fitted into the ring-shaped concave grooves 462 when the fastening means 450 are inserted into both ends of the unbonding tentering hole 420 of the body portion 410. The fastening means 450 Are formed to be fixed to both ends of the unbonded tension member hole 420 of the body portion 410.

The fastening means 450 press-fit into both ends of the unbonded tenter material hole with respect to the unbonded tenter material prevents the flow of the body of the spacer 400 on the unbonded tenter material and is fixed in place, It is possible to effectively prevent the skin damage of the unbonded toughening material.

Furthermore, when the bridge is used for a long time, it causes excessive sagging or cracking of the girder, and the load capacity of the girder is drastically lowered due to the passage of the overloading vehicle.

In such a case, a maintenance work is performed to tense the non-attached tensions 300a using a separate tension device. Since the uncoated tensions 300a are not damaged by the spacers 400 at all, they are free from grouting, so that they can be smoothly tensed by the tension device and further introduced with a desired prestress.

At this time, the attachment tension member 430 is inserted into the attachment tension member 430, so that the separation distance from the unbonded tension member can be secured.

It will be understood by those skilled in the art that the foregoing description of the present invention is for illustrative purposes only and that those of ordinary skill in the art can readily understand that various changes and modifications may be made without departing from the spirit or essential characteristics of the present invention. will be. It is therefore to be understood that the above-described embodiments are illustrative in all aspects and not restrictive. For example, each component described as a single entity may be distributed and implemented, and components described as being distributed may also be implemented in a combined form.

The scope of the present invention is defined by the appended claims rather than the detailed description and all changes or modifications derived from the meaning and scope of the claims and their equivalents are to be construed as being included within the scope of the present invention do.

100: Fixing device for central axis adjustment
110: anchorage
111: Fixing head 112: Rebar
113: Fixing plate
120: anchor head 121: tension member hole
200: Anchor head supporting block
210: horizontal block 220: extended horizontal block
230: U-shaped horizontal block 240: Curved horizontal block
250: Support groove
300: Tension material
300a: unbonded tension member
310: first tension member 320: second tension member
330: Third Tension Material 400: Space
410: body portion 420: unbonded tension member hole
430: Attachment Tension material hole 450: Securing means
460: ring-shaped projection S:

Claims (6)

A tension member 300 installed on the girder for introducing the prestress; And a fixing device for a central axis adjustment (100), wherein the fixing device for central axis adjustment (100)
A fixture 110 integrally formed with the fixation head 111 and including a fixation plate 113 for locating the stress on the surface of the girder provided with the stress material 300 and dispersing local stresses;
An anchor head 120 which is fixed to the fixing plate 113 after the tension member 300 penetrating the fixing hole 110 through the tension member hole and is supported by the fixing plate 113; And
A horizontal block 210 in which the anchor head 120 and the anchor head supporting block 200 are in point contact or face contact with each other and an extended horizontal block 220 integrally formed with the horizontal block and fixed to the fixing plate, And an anchor head support block (200) configured to support the anchor head support block (200). A tension member 300 installed on the girder for introducing the prestress; And a fixing device for a central axis adjustment (100), wherein the fixing device for central axis adjustment (100)
A fixing unit 110 integrally formed with the fixing head 111 and having a fixing plate 113 for positioning the surface of the girder while dispersing local stress; And an anchor head 120 which is fixed to the fixing plate 113 after being strained through a tension member hole and through which a tension member 300 passing through the fixing hole 110 is supported,
In this case, the support plate 250 is formed in the front surface of the fusing plate 113 in accordance with the shape of the anchor head 120, and the anchor head 120 is partially inserted into the support plate 250 to be supported A girder provided with a fixing device for the center of the tension member. 3. The method according to claim 1 or 2,
The horizontal block 210 is a rectangular parallelepiped block having an anchor head and an anchoring head for supporting the anchor head supporting block on the fixing plate by one-point contact with the horizontal block. 3. The method according to claim 1 or 2,
The horizontal block 210 is a U-shaped horizontal block, and the outer peripheral surface of the anchor head is inserted into the U-shaped receiving portion of the U-shaped horizontal block so that the anchor head supporting block is supported on the fixing plate by three- A girder equipped with a device. 3. The method according to claim 1 or 2,
The horizontal block 210 may be a curved horizontal block, and may include a girder provided with a fixing device for a central member for adjustment of a center of gravity of the anchor head, such that the anchor head supporting block is supported on the fixing plate by surface contact with the curved surface of the curved horizontal block . The method according to claim 1,
The tension member 300 includes an unbonded tension member 300a and a mounting tension member 300b that are spaced apart from each other to maintain tension and settlement of the tension member 300. [ The spacers 400 are installed on the tension member,
And a non-attaching tension member hole 420 inserted into the non-attaching tension member hole 420. The non-attaching tension member hole 300 has a wedge that is press- Wherein the fixing means 450 has a ring-shaped protrusion 460 protruding from the outer surface of the fixing means 450 and a ring-shaped protrusion 460 is formed on the inner circumferential surface of the un- Like recesses 462 are formed so that the ring-shaped protrusions 460 are fitted in the ring-shaped recessed grooves 462 so that the fixing means 450 are formed to be fixed at both ends of the unattached tentering hole 420 of the spacer 400 A girder provided with a fixing device for the center of the tension member.

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