JP3526436B2 - Fixing device, fixing structure and fixing method for tension member - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an apparatus, a structure and a method for fixing a tension member for introducing prestress to a concrete member, and more particularly to an apparatus, a structure and a method for fixing the tension member to the concrete member. TECHNICAL FIELD The present invention relates to an apparatus, a structure and a method for fixing a tendon.

[0002]

2. Description of the Related Art To introduce prestress to a concrete member, a tension material such as a steel strand or a steel rod is fixed to the concrete member in a state where tension is applied. This allows
A reaction force from the tension material acts on the concrete to generate compressive stress. As a result, the defect that the tensile strength of concrete is small is compensated, and it becomes possible to construct the beams and bridge girders between long spans with concrete.

In conventional prestressed concrete bridges and the like, most of the tendons for introducing prestress into concrete are arranged in the concrete member. That is, a tubular member called a sheath is embedded in a concrete member, and a tension material is inserted into this to introduce tension. Then, the prestress is introduced by fixing the end portion to concrete.

However, in erection of large bridge girders,
The number of cases where tension members are placed outside concrete members is increasing. For example, when a bridge with a multi-span rigid frame structure is to be constructed by a cantilever construction method, or when an arch bridge is cantilevered from both sides, the structure being erected and the structure at the time of completion will be different. The distributions of the bending moments generated also differ greatly. Therefore, a so-called temporary tension member (cable) may be used in which tension is introduced only during erection and the tension is released when completed.

Such a temporary tension member becomes unnecessary when completed, and it is desirable to remove and reuse it. However, if the tension member is arranged in the concrete member, it is difficult to remove it.
It is desirable to place it along the surface of the concrete member and outside the member. Also, by arranging the tension members outside the concrete member, the reinforcing bars can be easily arranged.

As described above, for fixing the tension member arranged outside the concrete member along the surface of the concrete member, for example, as shown in FIG.
Conventionally, the structure as shown in FIG.

The fixing structure shown in FIG.
3 is formed so as to be integrated with the concrete member 101 for introducing the prestress, and the tension member 1 is attached to the projection 102.
A through hole 104 for inserting 03 is provided. Then, the tension member 103 arranged along the surface of the concrete member 101 is inserted into the through hole 104, and the protrusion 10
Tensile member 10 through plate 105 or the like on one end face of No. 2
3 is fixed.

Further, in the fixing structure shown in FIG. 7B, the fixing block 11 made of steel is formed on the surface of the concrete member 111.
2 is fixed, and the tensioning member 113 in which tension is introduced is fixed to the fixing block 112. The fixing block 112 is fixed by a steel rod 114 or the like provided so as to penetrate the concrete member 111. The fixing block 112 and the concrete member 111 are fixed to each other.
A structure in which they are fixed by frictional force between them and a structure in which they are fixed by a shear resistance force such as the steel rod 114 are considered.

In other words, the structure that is fixed by frictional force is the steel rod 1.
The tension block 14 strongly presses the fixing block 112 against the surface of the concrete member 111, and the frictional force acting between the two blocks resists the tension of the tension member 113 parallel to the surface of the concrete member 111. Further, in the structure in which the steel rod or the like is fixed by the shearing resistance force, the steel rod 114 or the like penetrating the fixing block 112 and the concrete member 111 resists the force acting in a direction substantially perpendicular thereto.

[0010]

However, the above-mentioned fixing structure conventionally used has the following problems. In the structure shown in FIG. 7A, the concrete projection 102 is formed integrally with the concrete member 101 to which prestress is introduced, and after the structure is completed, the tension of the tension member 103 is released. Even if the tension material is removed, the protrusion 102 remains as it is. Therefore, on the outer surface of the bridge girder, and particularly on the bridge surface, the projecting portions 102 of concrete must be crushed and removed.

Further, in the structure shown in FIG. 7B, the steel rod 1
The fixing block 112 made of steel can be removed by releasing the tension force of 14 or the like, but in order to fix the fixing block 112, through holes for inserting the steel rods 114 are provided in advance, and It is necessary to apply tension to the steel rod 114 to fix the steel rod 114. Therefore, the man-hours increase and the cost increases. Further, in the structure in which the fixing block 112 and the concrete member 111 are fixed to each other by frictional force, in order to secure the adhesion of both members,
It may be necessary to fill mortar between these members. Further, when the thickness of the concrete member 11 is small, even if tension is introduced into the steel rod 114 or the like, the amount of elongation is small, and it becomes difficult to manage for introducing a predetermined tension. On the other hand, even in the structure where the steel rods 114 are fixed by the shearing force, in order to apply the shearing force evenly to the plurality of steel rods,
It is necessary to surely fill the periphery of the steel rod with grout or the like, which requires a lot of work during construction.

The invention according to the present application has been made in view of the above problems, and an object of the invention is to securely and easily fix a tension member arranged outside a concrete member to the concrete member to prevent prestress. It is to provide a fixing device, a fixing structure or a fixing method which can be introduced.

[0013]

In order to solve the above-mentioned problems, the invention according to claim 1 provides a tension member arranged outside the concrete member along the surface of the concrete member to the concrete member. A fixing device for fixing,
Tension material locking portion to which the end portion of the tension material to which tension is introduced is locked, and before being attached to the concrete member
In advance, it is provided so as to be integrally continuous with the tension member locking portion.
And a pressure bearing portion that is pressed against a surface of the concrete member that is substantially orthogonal to the axis line at a position overhanging from the axis line of the tension member, and extends along the tension member from the position where the pressure bearing portion is provided. And a side surface contact portion that is in contact with the surface of the concrete member along the tension member, and a side member contact portion is provided.

In this fixing device, when the tension member is locked, its tension is transmitted, and is transmitted as a bearing pressure to the surface of the concrete member substantially perpendicular to the axis of the tension member via the bearing portion. . At this time, the position where the bearing pressure acts is a position that projects laterally from the axis of the tendon,
A couple is generated by the reaction force acting from the concrete member and the reaction force against the tension of the tension member. However, the rotation of the fixing device is restrained by the force acting on the side contact portion and the frictional force between the bearing portion and the bearing surface on the concrete member side or other restraining force. It becomes a state where it is firmly fixed to the concrete member by the tension of. Therefore, the tension of the tendons is reliably transmitted to the concrete, and the prestress is effectively introduced. Further, when the tension is introduced into the tension member, the fixing device can be arranged at a predetermined position of the concrete member, and the tension can be introduced only by locking the tension member to the concrete member, so that the work efficiency is good. It will be Furthermore, the tension of the tension material can be released and the tension material / fixing device can be easily removed. The bearing portion may be in direct contact with the surface of the concrete member or may be in contact with the concrete member via a bearing plate or the like. Further, the surface of the concrete member substantially perpendicular to the axis of the tension member may be the end face of the concrete member, or may be the recess provided for fixing the tension member as described in claim 9. Good.

According to a second aspect of the present invention, in the fixing device according to the first aspect, the steel sheet material having a shape elongated in the axial direction of the tension member and having a laterally projecting portion from one end is spaced apart. Are connected substantially parallel to each other, and the tension member locking portion is formed at an end portion of the connecting body of the steel plate members on the side having the protruding portion, and the bearing portion is provided near the tip of the protruding portion. The side surface contact portion is formed near the other end of the steel plate material.

This fixing device is constructed by connecting two steel plate members in its main part, and can be manufactured easily and at low cost. Further, the tension member can be inserted between the two steel plate members and easily locked to both the steel plate members.

According to a third aspect of the present invention, there is provided a fixing structure for fixing a tension member arranged outside the concrete member along the surface of the concrete member to the concrete member, wherein the tension member of the concrete member. On the surface along the line and a plane substantially perpendicular to the axis of the tendon.
Continuous fixing device in advance together before mounting the discrete member is in contact directly or through another member, the tension is introduced tendons anchored to the fixing device, tension is the
Through the fixing device, on the surface almost perpendicular to the axis of the tendon.
It is intended to provide an anchoring structure for a tension member that is transmitted as a bearing force .

In this fixing structure, the fixing device can be easily arranged by abutting on the two surfaces of the concrete member, and the tension member is locked to this to introduce tension, and this force is applied to the concrete. Can be communicated. Then, the fixing can be easily performed with the tension thus introduced. Therefore, the working efficiency is improved, and the tension member and the fixing device can be easily removed when the tension of the tension member becomes unnecessary.

According to a fourth aspect of the present invention, there is provided a fixing structure for fixing a tension member arranged outside the concrete member to the concrete member along a surface of the concrete member, wherein the tension member is arranged in an axial direction of the tension member. A fixing device having an elongated body is disposed outside the concrete member,
Before mounting the fixing device on the concrete member,
The bearing portion, which is continuous with the main body of the fastening device and is provided so as to project laterally with respect to the longitudinal direction thereof, contacts the surface of the concrete member substantially perpendicular to the axis of the tendon. The tension member to which tension has been introduced is locked near one end of the main body of the fixing device, and on the surface of the concrete member along the tension member, near the other end of the main body of the fixing device. To provide an anchoring structure for a tendon.

In this fixing structure, the tension of the tension member locked in the fixing device is transmitted to the concrete through the main body portion and the bearing portion, and the tension member is fixed in a state where the tension is introduced. Then, in the fixing device, a couple is generated by the force acting from the tension member arranged outside the concrete member and the reaction force acting on the bearing portion from the concrete member side,
This fixing device has a long shape in the axial direction, and both ends are constrained by concrete members, so that the fixing device is fixed in a stable state. The pressure bearing portion may be in direct contact with the surface of the concrete member, or may be in contact with the concrete member via a pressure bearing plate or the like.

According to a fifth aspect of the present invention, in the fixing structure according to the fourth aspect, a bearing plate that is in contact with the bearing portion is provided on a surface of the concrete member substantially perpendicular to the axis of the tension member. Shall be fixed.

In this fixing structure, the pressure bearing plate is fixed to the pressure bearing surface of the concrete member, and the tension of the tension member is transmitted from the fixing device to the concrete member through the pressure bearing plate. As a result, the bearing stress is dispersed by the bearing plate,
It acts evenly on concrete. Therefore, the bearing surface of the concrete member is prevented from being damaged.

According to a sixth aspect of the present invention, in the fixing structure according to the fifth aspect, a rod-shaped anchor is coupled to the bearing plate, and the anchor is substantially aligned with the axis of the tension member in the concrete member. It is assumed that they are embedded in parallel.

In this fixing structure, the force transmitted from the tension member to the fixing device acts on the pressure bearing plate from the pressure bearing portion and is transmitted to the anchor connected to the pressure bearing plate. Then, since a force acts on the concrete member from the anchor embedded in the concrete member, it is possible to avoid the concentration of stress near the bearing surface of the concrete. Therefore, local damage such as corners of concrete running down due to a large shearing force is prevented, and the force is reliably transmitted to the concrete.

The invention according to claim 7 is the fixing structure according to claim 5, wherein the bearing plate restrains the bearing portion of the fixing device from moving in a direction perpendicular to the axis of the tension member. It shall have a locking part.

When the bearing pressure from the fixing device to the concrete member acts on the position away from the axis of the tendon, a couple force is generated in the fixing device. As a result, a force substantially parallel to the surface acts on the bearing surface of the concrete member. On the other hand, a frictional force acts between the bearing portion of the fixing device and the bearing surface of the concrete member or the bearing surface such as the bearing plate, and generally the position of the fixing device is constrained, and the above force causes the fixing device to be restrained. The position of the pressure bearing part does not shift. However, when the pressure bearing surface is smooth and the frictional force acting is small, or when the fixing of the fixing device is required to have high reliability, the position of the pressure bearing part of the fixing device is reliably restrained by the locking portion. be able to.

According to an eighth aspect of the invention, in the fixing structure according to the fifth aspect, the pressure bearing surface of the pressure bearing plate is formed in a concave shape or a convex shape, and the pressure bearing portion of the fixing device supports the pressure bearing plate. It shall have a shape that fits in correspondence with the shape of the pressure surface.

In this fixing structure, since the pressure-bearing plate and the pressure-bearing portion of the fixing device are fitted to each other with the curved surfaces of the concavities and convexities, both contact surfaces are stable and contact in a wide range. Therefore, the stress is not locally concentrated, and the reliability of the fixing structure is improved. Further, by fitting the concave portion and the convex portion together, it is possible to restrain the relative displacement in the lateral direction with respect to the bearing surface. Therefore, it is possible to eliminate the possibility that the position of the fixing device is displaced as in the structure according to the seventh aspect. By forming the concave or convex bearing surface as a spherical curved surface, the bearing pressure does not act unevenly even if these angles are slightly changed, and the force can be reliably transmitted. Therefore, if the arrangement direction of the tendons and the bearing surface of the concrete member are not at right angles due to an error, and if the axis of the bridge girder is curved and it is difficult to set the bearing surface at right angles to the direction of the tendons, etc. Also, without causing local bending or bias of bearing pressure in the tension material,
You can fix the tension material.

According to a ninth aspect of the present invention, in the fixing structure according to the third or fourth aspect, the surface of the concrete member substantially perpendicular to the axis of the tension member is attached to the tension member of the concrete member. It shall be the side surface of the concave hole formed in the surface along.

In such a fixing structure, if a concave hole into which a part of the fixing device can be inserted is formed on the surface of the concrete member along the tension member, the fixing device is arranged at this position. Then, the tension material can be fixed. For this reason, the work for fixing the tendons necessary when forming the concrete member becomes small. Further, after releasing the tension of the tension member and removing the tension member together with the fixing device, the surface of the concrete member can be finished in a flat appearance by filling the concave portion with concrete or mortar.

According to a tenth aspect of the present invention, there is provided a method for fixing a tension member arranged outside the concrete member along the surface of the concrete member, to the concrete member, wherein the tension member is long in the axial direction. Before mounting on the concrete member near one end of the fixing device having a shape
A projection portion that is previously provided so as to be integrally continuous with the main body of the fixing device, is locked to a surface of the concrete member that is substantially perpendicular to the axial direction of the tension member, A method for fixing a tension member, in which the vicinity of the other end of the device is brought into contact with the surface of the concrete member, the tension member is locked to the fixing device, and a tension force is introduced to fix the tension member.

In this fixing method, the tension member can be easily fixed through the fixing device arranged outside the concrete member, and the tension of the tension member can be released and removed easily.

[0033]

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is a perspective view showing a fixing structure for a tension member, which is an embodiment of the present invention. 2 is a plan view and a side view (partially sectional view) of the same fixing structure, FIG. 3 is a front view and a rear view, and FIG. 4 is a cross-sectional view. The fixing device used in this fixing structure is an embodiment of the invention according to claim 1 or claim 2.

In this fixing structure, in order to introduce prestress to the concrete member 1, the tension member 2 arranged outside the concrete member is fixed to the concrete member 1 in a state where tension is introduced, Tension material 2
Is locked to the fixing device 3, and a force is applied to the concrete member 1 via the fixing device 3.

The fixing device 3 includes a main body 11 in which two structural steel thick plates (thickness: 36 mm) are joined at an interval.
The tension member fixing plate 12 in which the tension member 2 is locked by the nut 4 or the wedge, the support blades 13 for temporarily supporting the fixing device 3 in a stable state, and the force is transmitted to the concrete member 1 as a supporting pressure. The bearing 14 and the side contact plate 15 that contacts the surface of the concrete member 1 along the tension member 2.
The main part is composed of and.

The steel thick plate of the main body 11 has a shape elongated in the axial direction of the tension member 2, and has a shape near one end thereof.
A portion 11a laterally projecting with respect to the axis of the tension member 2
The two thick steel plates having the same shape are joined by the connecting plate 16 with an interval in which the tension member 2 is inserted. Then, the tension member fixing plate 1 is provided at the end portion on the side where the overhanging portion 11a is provided, perpendicular to the steel thick plate.
2 is attached by welding.

The side contact plate 15 provided at the other end, that is, near the rear end, is a plate member mounted parallel to the surface of the concrete member 1 along the tension member 2, and couples to the fixing device 3. And the rear edge of the concrete member 1
When it is pressed against the surface of the fixing device 3, the fixing device 3 is supported in a stable state.

The support wings 13 provided slightly forward of the central portion of the main body 11 project to both sides of the main body 11 and are provided between the surface of the concrete member 1 and the small block 10.
The main body portion 11 can be supported in a stable state by inserting the above.

On the other hand, the pressure bearing portion 14 for transmitting the force to the concrete member 1 is provided on the rear side of the projecting portion 11a, and a steel member having a convex spherical curved surface can be welded to the steel thick plate of the main body portion 11. It is joined. This spherical curved surface is fitted into the concave portion of the pressure bearing plate 6 attached to the surface of the concrete member 1 perpendicular to the tension member 2, and is in contact in a wide range so that the bearing force acts in a stable state.

The tension member 2 fixed by the fixing device 3 as described above is inserted between the two steel thick plates from the rear end side of the steel thick plate and provided on the tension member fixing plate 12. Tension is introduced and fixed on the front surface of the tension material fixing plate 12 through the through hole. In the present embodiment, the tension member 2 is a PC steel rod and is locked to the tension member fixing plate 12 using the nut 4 in the present embodiment. However, a steel stranded wire or a steel wire is locked using a wedge. You can also Alternatively, a tension material obtained by bundling non-metal fibers such as aramid fibers, carbon fibers, and glass fibers and hardening them into a rod shape can be used.

On the other hand, the concrete member 1 to which the prestress is introduced by the fixing device 3 and the tension member 2 has a rectangular parallelepiped concave portion on the surface along the tension member 2 as shown in FIGS. 1 to 4. 5 is formed, and a pressure bearing plate 6 is attached to a rear side surface thereof, that is, a surface perpendicular to the above surface on the side where the tension member 2 is stretched. In this pressure bearing plate 6, four anchors 7 are vertically connected and fixed by embedding these anchors 7 in concrete. A concave spherical curved surface is formed on the open surface of the pressure bearing plate 6, and the convex portion provided on the pressure bearing portion 14 of the fixing device 3 is fitted therein.

Further, in the concrete member 1, a reinforcing reinforcing bar 8 is arranged so as to surround the surface side of the concrete member of the anchor, and it is reinforced so that the concrete in the vicinity of the bearing plate 6 does not fall off. The pressure plate 6 is provided with a concave portion into which the positioning key 17 fixed to the fixing device 3 is fitted. By fitting these together, the fixing device 3 can be arranged at a substantially predetermined position. You can do it.

Next, the tensioning and fixing work of the tension member 2 in the fixing structure will be described. It should be noted that this work procedure is one embodiment of the invention described in claim 10. First,
The fixing device 3 is arranged at a predetermined position on the concrete member 1, and is installed so that the bearing portion 14 contacts the bearing plate 6 fixed to the concrete member 1. And the tension material 2
From the rear of the fixing device 3 through the gap between the two thick steel plates and the through hole of the tension member fixing plate 12, and the nut 4 is screwed.

As shown in FIG. 5, a center hole jack 9 is provided at the end of the tension member 2 so that the fixing device 3 bears a reaction force to introduce tension into the tension member 2. Then, when the nut 4 is rotated in a state where the tension is introduced, the nut 4 is locked to the tension member fixing plate 12 when the operation of the center hole jack 9 is released, and the tension of the tension member 2 is maintained. It is fixed.

As the tension F ₁ acts on the fixing device 3 from the tension member 2 as described above, the reaction force F ₂ acts on the bearing portion 14 from the concrete member 1 through the bearing plate 6.
The directions of action of these forces are parallel and opposite, but the lines of action are eccentric, and a couple acts on the fixing device 3. Although this couple tries to rotate the fixing device 3, it is restrained by the reaction force F ₃ acting substantially at right angles to the axial direction of the tension member 2 via the side contact plate 15, and the fixing device 3 Is maintained in a stable state.

[0046] Also, with the action of the reaction force F _3, the bearing capacity portion 14 of the fixing device 3 the force F ₄ acts in a direction parallel to the bearing capacity surfaces. The force F ₄ and the force F ₂ perpendicular to the bearing surface act on the concrete member 1 in the opposite directions,
A stress that causes shear failure acts on the corner portion of the concrete member 1. However, the above-mentioned shear fracture is resisted by the anchors 7 connected to the bearing plate 6 and the reinforcing reinforcing bars 8 arranged so as to surround these anchors 7.

In the above embodiment, the pressure bearing portion 14 of the fixing device 3 and the pressure bearing plate 6 fixed to the concrete member 1 are fitted with the convex surface and the concave surface to apply the force F.
_Although the structure for restraining the positional deviation of the fixing device due to ₂ is shown in FIG. 6, the positional displacement can be restricted by the pressure bearing plate 26 or the projection 27 fixed to the fixing device 23 as shown in FIG.

[0048]

As described above, in the tensioning member fixing device, fixing structure or fixing method according to the present invention, the tensioning member arranged outside the concrete member can be easily fixed to the concrete member. The work required to fix the material can be significantly reduced. Further, the tension material required only during the construction of the concrete structure can be easily released and removed when the structure is completed or when the prestress becomes unnecessary.

[Brief description of drawings]

FIG. 1 is a perspective view showing a fixing device and a fixing structure for a tension member according to an embodiment of the present invention.

2A and 2B are a plan view and a side view of a tension member fixing device and a fixing structure shown in FIG.

3A and 3B are a front view and a rear view of a fixing device and a fixing structure for a tension member shown in FIG.

FIG. 4 is a cross-sectional view of the tension member fixing device and fixing structure shown in FIG.

FIG. 5 is a schematic view showing a state when tension is introduced into the tension member in the tension member fixing structure shown in FIG.

FIG. 6 is a side view showing a fixing structure for a tension member according to another embodiment of the present invention.

FIG. 7 is a schematic cross-sectional view showing a conventional fixing structure of a tension member arranged outside a concrete member.

[Explanation of symbols]

1 Concrete member 2 tension material 3 fixing device 4 nuts 5 Recesses provided in concrete members 6 bearing plate 7 anchor 8 Reinforcing rebar 9 Center hole jack 10 small blocks 11 Main body 12 Tension material fixing plate 13 Support wings 14 bearing 15 Side contact plate 16 connecting plate 17 Positioning key 21 Concrete member 22 Tension material 23 Fixing device 26 bearing plate 27 protrusions

─────────────────────────────────────────────────── ─── Continuation of front page (72) Inventor Satoshi Nakamura 4 Sumitomo Construction at 13 Araki-cho, Shinjuku-ku, Tokyo Within Sumitomo Corporation (72) Inventor Kunihiro Kunihiro 4 Sumitomo Construction at 13-araki-machi, Shinjuku-ku, Tokyo Incorporated (72) Inventor Hiroyuki Ochiai 4 Sumitomo Construction Co., Ltd., 13-13 Araki-cho, Shinjuku-ku, Tokyo (56) Reference JP 2001-262843 (JP, A) (58) Fields investigated (Int. Cl. ⁷ , DB name) E04C 5/12 E04G 21/12 104 E01D 1/00

Claims (10)

(57) [Claims] 1. A fixing device for fixing a tension member arranged outside the concrete member to the concrete member along the surface of the concrete member, wherein an end portion of the tension member to which tension is introduced is engaged. The tension member locking portion to be stopped and the concrete member are provided so as to be continuous with the tension member locking portion before being attached to the concrete member. A bearing portion that is pressed on a surface substantially perpendicular to the axis of the member, and a portion that is provided along the tension member from a position where the bearing portion is provided, and is provided on the tension member of the concrete member. A fixing device for a tension member, characterized in that it has a side surface abutting portion that abuts a surface along the side surface. 2. A shape elongated in the axial direction of the tension member,
Two steel sheet materials having a protruding portion from one end to the side are connected in parallel with each other at intervals, and at the end portion of the connected body of the steel sheet materials on the side having the protruding portion,
The tension member locking portion is formed, the bearing portion is provided near the tip of the overhang portion, and the side surface contact portion is formed near the other end portion of the steel plate material. The tension member fixing device according to claim 1. 3. A fixing structure for fixing a tension member disposed outside the concrete member to the concrete member along the surface of the concrete member, the surface of the concrete member along the tension member, and the On the surface almost perpendicular to the axis of the tension member, the concrete member
Continuous fixing device in advance together before mounting is abutting directly or through another member, the tendon tensioning force is introduced into the fixing device is engaged, tension is a fixing device Through the axis of the tendon
An anchoring structure for a tension member, which is transmitted as a bearing force to a surface that is substantially perpendicular . 4. A fixing structure for fixing a tension member arranged outside the concrete member to the concrete member along the surface of the concrete member, the main body having a shape elongated in the axial direction of the tension member. A fixing device having the fixing device is arranged outside the concrete member, and the fixing device is fixed in advance before the fixing device is mounted on the concrete member.
The bearing portion, which is continuous with the main body of the fastening device and is provided so as to project laterally with respect to the longitudinal direction thereof, contacts the surface of the concrete member substantially perpendicular to the axis of the tendon. The tension member to which tension has been introduced is locked near one end of the main body of the fixing device, and on the surface of the concrete member along the tension member, near the other end of the main body of the fixing device. An anchoring structure for a tension member, which is characterized by being in contact with. 5. The bearing plate, which is in contact with the bearing portion, is fixed to a surface of the concrete member substantially perpendicular to the axis of the tension member. Tension material fixing structure. 6. A rod-shaped anchor is coupled to the bearing plate, and the anchor is embedded in the concrete member substantially parallel to the axis of the tendon. The fixing structure of the tension material. 7. The pressure bearing plate according to claim 5, wherein the pressure bearing plate has a locking portion that restrains the pressure bearing portion of the fixing device from moving in a direction perpendicular to the axis of the tension member. The fixing structure of the tension material. 8. The pressure bearing surface of the pressure bearing plate is formed in a concave or convex shape, and the pressure bearing portion of the fixing device has a shape fitted to correspond to the shape of the pressure bearing surface of the pressure bearing plate. The fixing structure for a tension member according to claim 5. 9. A surface of the concrete member substantially perpendicular to the axis of the tendon is a side surface of a concave hole formed on a surface of the concrete member along the tendon. The fixing structure for a tendon according to claim 3 or 4. 10. Along the surface of the concrete member,
A method of fixing a tension member arranged outside the concrete member to the concrete member, wherein the tension member is provided in the vicinity of one end of a fixing device having a shape elongated in the axial direction of the tension member before being attached to the concrete member. The
The overhanging portion provided so as to be integrally continuous from the main body of the fixing device is locked to a surface of the concrete member substantially perpendicular to the axial direction of the tension member, and the vicinity of the other end of the fixing device is fixed to the concrete. A method for fixing a tension member, which comprises contacting the surface of a member, locking the tension member to the fixing device, and introducing a tension force to fix the tension member.