JP2012026090A - Fixation structure, fixation structure body and fixation method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To lower costs while surely fixing a fixation end part to a structure.SOLUTION: A fixation structure 10 fixes fixation end parts 3a, 3b of tendons 2a, 2b to a structure 4, and includes a fixation body 11 to which the fixation end parts 3a, 3b are fixed and which is connectable to the structure 4. The fixation body 11 includes a pipe part 12 in which the fixation end parts 3a, 3b are interpolated from an opening on one side L1, a filler 14 which is filled inside the pipe part 12 and fixed in the state that the fixation end parts 3a, 3b are embedded, and a pressure receiving part 16 which is in close contact with the filler 14 from one side L1. The filler 14 comprises a mortar material, a resin material or a mixed material of the mortar material and the resin material.

Description

  The present invention relates to a fixing structure for fixing a fixing end portion of a tendon to a structure, a fixing structure, and a fixing method.

Conventionally, as this type of fixing structure, for example, as shown in Patent Document 1 below, a casting block embedded in a structure, and a bonding block having an internal cone supported by the casting block and fixing a tendon, An arrangement including an anchor head for fixing a tendon is known.
In this fixing structure, first, the initial tension of the tendon is performed by fixing the fixing end of the tendon to the anchor head. After the tension material is initially tensioned in this manner, the bonding material is filled into the bonding block, and an internal cone formed by integrating the filling material and the tension material is formed in the bonding block.

JP 2003-286759 A

  However, in the conventional fixing structure, since the initial tension of the tendon is performed by fixing the fixing end of the tendon to the anchor head, the initial tension of the tendon concentrates on the anchor head. It is necessary to ensure the strength of the anchor head. Therefore, it is necessary to increase the thickness of the anchor head, requiring a large amount of steel for the anchor head, resulting in a problem that the manufacturing cost increases.

  The present invention has been made in view of the circumstances described above, and an object of the present invention is to provide a fixing structure capable of reducing the cost while reliably fixing the fixing end portion to the structure.

In order to solve the above problems, the present invention proposes the following means.
A fixing structure according to the present invention is a fixing structure for fixing a fixing end portion of a tendon material to a structure, and includes a fixing member to which the fixing end portion is fixed and connectable to the structure, and the fixing member. A tube portion in which the fixing end portion is inserted from an opening on one side, a filler that is filled in the tube portion and is fixed in a state in which the fixing end portion is embedded, and the filler A pressure receiving portion in close contact with the one side, wherein the filler is made of a mortar material, a resin material, or a mixed material of a mortar material and a resin material.

In the present invention, the tension force of the tension material is transmitted from the fixing end portion to the filler, and then transmitted to the pressure receiving portion as a support pressure.
Further, since the filler is made of a mortar material, a resin material, or a mixed material of a mortar material and a resin material, when the tension is transmitted to the filler as described above, the filler is placed outside the pipe portion in the radial direction. Deforms to swell. At this time, the tube portion restrains the deformation of the filler, whereby the force transmitted to the filler is also transmitted to the tube portion.
That is, the tension force of the tension material is distributed and transmitted to the pressure receiving portion and the tube portion via the filler, and then transmitted from the fixing body to the structure and received.

As described above, the fixing end can be reliably fixed to the structure.
In addition, since the tension of the tension material is distributed and transmitted to the pressure receiving part and the pipe part, it is not necessary to increase the thickness to secure the strength of the pressure receiving part and the pipe part, and the amount of steel used in the fixing body Can be suppressed.
Further, since the tension force is dispersed through the filler, a structure that disperses the tension force can be formed by performing a simple operation of filling the tube portion with the filler. As a result, complicated processing can be suppressed during manufacturing of the fixing body, and manufacturing cost can be suppressed.
As described above, the cost of the fixing structure can be reduced.

  Further, the fixing end portion may be fixed to a fixing member having a bearing surface that is in close contact with the filler from the other side opposite to the one side.

In this case, the tension of the tension member is transmitted not only from the fixing end but also from the bearing surface of the fixing member to the filler as a bearing pressure. Accordingly, it becomes possible to effectively transmit the tension force to the filler, and the fixing end can be more reliably fixed to the structure.
In addition, when adopting a ready-made product (for example, a wedge-type fixing tool or a crimp grip) as the fixing member, it becomes possible to reduce the manufacturing cost of the fixing member, and to surely reduce the cost of the fixing structure. Can do.

  The fixing member may be embedded in the filler.

  In this case, since the fixing member is embedded in the filler, the tension of the tension material transmitted to the fixing member is transmitted to the filler without leakage, and the tension of the tension material is more effective for the filler. Can be transmitted.

  Moreover, the said fixing member may be formed in the plate shape arrange | positioned so that an outer peripheral surface may oppose the inner peripheral surface of the said pipe part.

  In this case, since the fixing member is formed in a plate shape so that the outer peripheral surface faces the inner peripheral surface of the pipe portion, the fixing member is increased in the radial direction in the pipe portion when the fixing body is manufactured. It becomes possible to position with high accuracy, and the fixing end portion can be positioned with high accuracy in the radial direction in the tube portion. As a result, the radial position of the fixing end with respect to the filler can be adjusted with high accuracy, and the tension of the tendon can be effectively transmitted from the fixing end.

  When a plurality of fixing end portions are fixed to the filler and a plurality of fixing end portions are fixed to the fixing member, the relative positional relationship between the fixing end portions is adjusted with high accuracy in the tube portion. And the tension of the tendon can be effectively dispersed and transmitted to the filler. As a result, the fixing end portion can be more reliably fixed to the structure.

  Further, the fixing member may be formed in a plate shape that closes the tube portion from the other side.

In this case, since the fixing member is formed in a plate shape that closes the tube portion from the other side, the filler is prevented from leaking from the opening portion on the other side of the tube portion when the fixing body is manufactured. be able to.
Here, since the fixing member closes the pipe portion, there is no need to provide a dedicated member to suppress the leakage of the filler from the pipe portion as described above, and the amount of steel material required for the fixing body is suppressed. It becomes possible to do. Thereby, the manufacturing cost of the fixing structure can be surely suppressed.

  When the fixing member is connected to the pipe portion, the fixing member can be positioned with high accuracy in the radial direction, and the fixing end portion is arranged in the radial direction in the pipe portion when the fixing body is manufactured. Can be positioned with high accuracy. As a result, the radial position of the fixing end with respect to the filler can be adjusted with high accuracy, and the tension of the tendon can be effectively transmitted from the fixing end.

  Further, when a plurality of fixing end portions are fixed to the filler and a plurality of fixing end portions are fixed to the fixing member, the relative positional relationship between the fixing end portions is adjusted with high accuracy in the tube portion. And the tension of the tendon can be effectively dispersed and transmitted to the filler. As a result, the fixing end portion can be more reliably fixed to the structure.

  Further, the fixing end portion may be inclined with respect to the tension direction of the tension material.

  In this case, since the fixing end portion is inclined with respect to the tension direction, the tension force can be effectively transmitted from the fixing end portion to the filler by the fixing force between the fixing end portion and the filler. .

  The tension material may be formed by twisting a plurality of wires, and the plurality of wires at the fixing end portion may be untwisted and inclined with respect to the tension direction of the tension material.

In this case, since the plurality of wires at the fixing end are inclined with respect to the tension direction, the tension force is effectively transmitted from the wire to the filler by the fixing force between the wires and the filler. Can do. Accordingly, it becomes possible to effectively transmit the tension force to the filler, and the fixing end can be more reliably fixed to the structure.
In addition, since the fixing end portion can be more reliably fixed to the structure by a simple process of inclining a plurality of wires with respect to the tension direction in this way, the manufacturing cost of the fixing structure is surely suppressed. be able to.

  Further, an enlarged diameter portion may be formed at the tip of the wire rod at the fixing end portion.

  In this case, since the diameter-expanded portion is formed at the tip of the wire at the fixing end, tension can be more effectively transmitted from the wire at the fixing end to the filler.

  Further, the pressure receiving portion may be formed in a ring shape in which the fixing end portion is inserted and in close contact with the outer peripheral edge portion of the filler from the one side.

  In this case, since the pressure receiving portion is formed in a ring shape, the tension transmitted to the filler can be effectively transmitted as a supporting pressure to the pressure receiving portion, and the fixing end portion is more reliably attached to the structure. Can be fixed.

  The pressure receiving portion may be connected to the tube portion, and a positioning plate having a positioning hole into which the fixing end portion is fitted may be disposed in the pressure receiving portion.

  In this case, since the positioning plate is disposed in the pressure receiving portion, the fixing end can be positioned with high accuracy in the radial direction in the pressure receiving portion when the fixing body is manufactured. As a result, the radial position of the fixing end with respect to the filler can be adjusted with high accuracy, and the tension of the tendon can be effectively transmitted from the fixing end.

  In addition, when a plurality of fixing ends are fixed to the filler and a plurality of fixing ends are fitted in the positioning hole, the relative positional relationship between the fixing ends is adjusted with high accuracy in the pressure receiving portion. And the tension of the tendon can be effectively dispersed and transmitted to the filler. As a result, the fixing end portion can be more reliably fixed to the structure.

  Moreover, the said pressure receiving part may be connected by contact | abutting to the said structure from the other side on the opposite side to the said one side.

In this case, since the pressure receiving part is connected to the structure by contacting from the other side, the support pressure transmitted from the filler toward the one side toward the pressure receiving part is directly applied to the structure from the pressure receiving part. It can be received.
Further, as described above, since the pressure receiving portion is connected by contacting the structure from the other side, other members for connecting the fixing body and the structure become unnecessary, and the manufacturing cost of the fixing structure is ensured. Can be suppressed.

  According to another aspect of the present invention, there is provided a fixing structure including a tension member and a structure in which a fixing end portion of the tension member is fixed by the fixing structure.

  According to the present invention, since the fixing end portion is fixed to the structure by the fixing structure whose cost is reduced, the cost of the fixing structure can be reduced.

  The fixing method according to the present invention is a fixing method in which the fixing end portion is fixed to the structure by the fixing structure, and the fixing end portion is inserted into the tube portion and the tube portion includes the fixing end portion. A fixing step of filling a filler and fixing the fixing end to the filler; and a connecting step of connecting the fixing body to the structure after the fixing step. To do.

  According to this invention, since the connecting step is performed after the fixing step, the initial tension force of the tendon can be distributed and transmitted to the pressure receiving portion and the pipe portion.

According to the fixing structure of the present invention, it is possible to reduce the cost while reliably fixing the fixing end portion to the structure.
Further, according to the fixing structure according to the present invention, the cost can be reduced.
Furthermore, according to the fixing method according to the present invention, the initial tension of the tendon can be distributed and transmitted to the pressure receiving part and the pipe part.

FIG. 3 is a cross-sectional view illustrating a main part of the fixing structure according to the first embodiment of the present invention. It is an AA cross-sectional arrow view shown in FIG. It is a BB cross-sectional arrow view shown in FIG. FIG. 6 is a cross-sectional view showing a main part of a modification of the fixing structure according to the first embodiment of the present invention. FIG. 6 is a cross-sectional view showing a main part of a modification of the fixing structure according to the first embodiment of the present invention. FIG. 6 is a cross-sectional view illustrating a main part of a fixing structure according to a second embodiment of the present invention. It is CC sectional view taken on the line in FIG. FIG. 10 is a cross-sectional view illustrating a main part of a fixing structure according to a third embodiment of the present invention. It is DD sectional view taken on the line in FIG. FIG. 10 is a cross-sectional view illustrating a main part of a fixing structure according to a fourth embodiment of the present invention. It is an EE cross-sectional arrow view shown in FIG. FIG. 10 is a cross-sectional view illustrating a main part of a fixing structure according to a fifth embodiment of the present invention. FIG. 10 is a cross-sectional view showing a main part of a modification of the fixing structure according to the fifth embodiment of the present invention. FIG. 10 is a cross-sectional view illustrating a main part of a fixing structure according to a sixth embodiment of the present invention. FIG. 10 is a top view showing a main part of a fixing structure according to a seventh embodiment of the present invention. FIG. 10 is a cross-sectional view illustrating a main part of a fixing structure according to a seventh embodiment of the present invention. FIG. 14 is a cross-sectional view illustrating a main part of a fixing structure according to an eighth embodiment of the present invention. FIG. 18 is a cross-sectional view taken along the line F-F illustrated in FIG. 17. It is sectional drawing which shows the principal part of the fixing structure which concerns on 9th Embodiment of this invention. It is sectional drawing which shows the principal part of the modification of the fixing structure which concerns on 9th Embodiment of this invention. It is sectional drawing which shows the principal part of the modification of the fixing structure which concerns on 9th Embodiment of this invention. It is sectional drawing which shows the principal part of the modification of the fixing structure which concerns on 9th Embodiment of this invention.

(First embodiment)
The fixing structure according to the first embodiment of the present invention will be described below with reference to the drawings.
As shown in FIG. 1, the fixing structure 1 includes tension members 2a and 2b, and a structure 4 on which fixing ends 3a and 3b of the tension members 2a and 2b are fixed.
The structure 4 is formed with an insertion hole 4a through which the tendons 2a and 2b are inserted. The fixing end portions 3a and 3b of the tension members 2a and 2b are fixed to the structure 4 by the fixing structure 10 having the fixing bodies 11 to which the fixing end portions 3a and 3b are fixed and connectable to the structure 4. Has been.

  The fixing body 11 has a fixing tool main body 13 having a tube portion 12 in which fixing end portions 3a and 3b are inserted from an opening on one side L1, and the tube portion 12 is filled with the fixing end portions 3a and 3b. A filler 14 fixed in an embedded state, and a bearing plate 15 interposed between the fixing tool main body 13 and the structure 4 are provided.

The fixing device main body 13 includes the tube portion 12, a pressure receiving portion 16 that is in close contact with the filler 14 from the one side L <b> 1, and a lid portion 17 that closes the opening portion on the other side L <b> 2 of the tube portion 12. . When viewed from the tube axis O direction of the tube portion 12, the outer shapes of the tube portion 12, the pressure receiving portion 16 and the lid portion 17 are all circular, and the tube portion 12, the pressure receiving portion 16 and the lid portion are formed. 17 is arranged coaxially. The outer diameter of the fixing tool main body 13 having the largest outer diameter is smaller than the inner diameter of the insertion hole 4a of the structure 4 and can pass through the insertion hole 4a.
In the following, the direction orthogonal to the tube axis O is simply referred to as the radial direction, and the direction around the tube axis O is simply referred to as the circumferential direction.

The lid portion 17 is formed in a plate shape and is connected to the opening edge of the other side L2 of the tube portion 12.
The pressure receiving portion 16 is formed in a ring shape in which the fixing end portions 3a and 3b are inserted and in close contact with the outer peripheral edge portion of the filler 14 from the one side L1. The pressure receiving part 16 is connected to the pipe part 12. The pressure receiving portion 16 includes a pressure receiving surface 16a having a component facing the tube axis O direction, and the pressure receiving surface 16a is in close contact with the filler 14 from the one side L1.

  Further, in the illustrated example, the fixing tool main body 13 is formed by integrally forming the pipe portion 12, the pressure receiving portion 16, and the lid portion 17 with a steel material or the like by casting. The fixing device main body 13 may have a structure in which the tube portion 12, the pressure receiving portion 16, and the lid portion 17 are formed of separate members and then connected by welding.

As shown in FIG. 2, the pressure bearing plate 15 is formed in an annular shape (ring shape) disposed coaxially with the fixing tool main body 13, and is arranged along a cross section passing through the central axis (the tube axis O). It is divided. As shown in FIG. 1, the inner diameter of the pressure bearing plate 15 is equal to the inner diameter of the pressure receiving portion 16, and the pressure receiving portion 16 contacts the pressure bearing plate 15 from the other side L <b> 2, and the tension material 2 a, The fixing end portions 3a and 3b of 2b are inserted. The outer peripheral edge of the bearing plate 15 is in contact with the opening peripheral edge of the insertion hole 4 a of the structure 4.
The filler 14 is filled in the tube portion 12 without a gap. In this embodiment, the filler 14 is made of a mortar material, a resin material, or a mixed material of a mortar material and a resin material.

In the example shown here, fixing ends 3a and 3b of a plurality of tension members 2a and 2b are fixed to the filler 14.
The tension members 2a and 2b are formed by twisting a plurality of wire rods 18 made of, for example, steel, and the tension direction T of each of the tension members 2a and 2b is parallel to the tube axis O direction. In the drawings shown below, the tension members 2a and 2b are shown in a state in which the plurality of wires 18 are not close to each other for the sake of easy viewing.

As shown in FIG. 3, the fixing end portions 3 a and 3 b of the tendon members 2 a and 2 b are arranged so that the distance between the central axes is equal. In the illustrated example, a plurality of tendon members 2a and 2b are surrounded by a first tendon member 2a having a fixing end 3a disposed on the tube axis O and the first tendon member 2a from the outside in the radial direction. A plurality of second tendon members 2b disposed on the surface. The fixing end portions 3b of the second tendon members 2b are arranged at equal intervals in the circumferential direction.
In the following description, the fixing end 3a of the first tendon 2a is referred to as the first fixing end 3a, and the fixing end 3b of the second tendon 2b is referred to as the second fixing end 3b, when it is particularly necessary to distinguish. .

  As shown in FIG. 1, the fixing end portions 3a and 3b are fixed to a fixing member 20 having a pressure bearing surface 19 in close contact with the filler 14 from the other side L2. The fixing member 20 is embedded in the filler 14, and in this embodiment, one fixing end 3a, 3b is fixed to one fixing member 20. In the illustrated example, a ready-made wedge-shaped fixing tool that is formed in a cylindrical shape and whose inner diameter gradually decreases from the other side L2 toward the one side L1 is employed as the fixing member 20. In the fixing member 20, an end surface extending along the radial direction and facing the one side L <b> 1 is the bearing surface 19, and fixing ends 3 a and 3 b are fixed to the fixing member 20 by a wedge 21. Yes.

Next, a fixing method in which the fixing end portions 3a and 3b are fixed to the structure 4 by the fixing structure 10 configured as described above will be described.
First, a fixing step of fixing the fixing member 20 to the fixing end portions 3a and 3b of the tendons 2a and 2b is performed.

Next, a fixing process is performed in which the fixing end portions 3 a and 3 b are inserted into the tube portion 12 and the tube portion 12 is filled with the filler 14 and the fixing end portions 3 a and 3 b are fixed to the filler material 14. Here, in this embodiment, since the fixing tool main body 13 includes the lid portion 17, the filler 14 can be prevented from leaking from the opening portion on the other side L <b> 2 of the tube portion 12.
Note that the lid 17 of the fixing tool body 13 may be separated from the fixing tool body 13 after the fixing step. In this case, the amount of steel used for the fixing tool body 13 can be reduced.

Then, after the fixing step, a connecting step for connecting the fixing body 11 to the structure 4 is performed.
In this connecting step, for example, after the fixing tool main body 13 has entered the insertion hole 4a of the structure 4, the fixing tool main body 13 is passed through the insertion hole 4a, and the tension members 2a and 2b are inserted into the insertion holes 4a. A gap is formed between the pressure receiving portion 16 of the fixing tool body 13 and the structure 4. The divided support plates 15 are inserted into the gaps so that the tendons 2a and 2b are sandwiched in the radial direction. Then, the pressure receiving portion 16 of the fixing tool main body 13 comes into contact with the support plate 15 from the other side L2, and the support plate 15 comes into contact with the structure 4 from the other side L2, so that the fixing body 11 is connected to the structure 4. Is done.

Next, the operation of the fixing structure 10 will be described.
In the fixing structure 10, the tension force of the tension members 2 a and 2 b is transmitted from the fixing end portions 3 a and 3 b to the filler material 14. At this time, in this embodiment, the tension of the tension members 2a and 2b is transmitted not only from the fixing end portions 3a and 3b but also from the bearing surface 19 of the fixing member 20 to the filler 14 as a bearing pressure.

Thus, the tension force of the tension members 2a and 2b transmitted to the filler 14 is transmitted to the pressure receiving portion 16 as a supporting pressure.
Further, since the filler 14 is made of a mortar material, a resin material, or a mixed material of a mortar material and a resin material, when the tension force is transmitted to the filler 14 as described above, the filler 14 is outside in the radial direction. Deforms to swell. At this time, the tube portion 12 restrains the deformation of the filler 14, whereby the force transmitted to the filler 14 is also transmitted to the tube portion 12.
That is, the tension force of the tension members 2 a and 2 b is distributed and transmitted to the pressure receiving portion 16 and the tube portion 12 via the filler 14, and then transmitted from the fixing body 11 to the structure 4 via the pressure plate 15. Can be accepted.

As described above, according to the fixing structure 10 according to this embodiment, the fixing end portions 3 a and 3 b can be reliably fixed to the structure 4.
In addition, since the pressure receiving portion 16 is formed in a ring shape, the tension force transmitted to the filler 14 can be effectively transmitted as a supporting pressure to the pressure receiving portion 16, and the fixing end portions 3a and 3b can be connected. The structure 4 can be more reliably fixed.

Further, the tension force of the tension members 2a and 2b is transmitted not only from the fixing end portions 3a and 3b but also to the filler material 14 as a support pressure via the bearing surface 19 of the fixing member 20, so that the tension force is transmitted to the filler material. 14, the fixing end portions 3a and 3b can be fixed to the structure 4 more reliably.
Furthermore, since the fixing member 20 is embedded in the filler 14, the tension of the tension members 2a and 2b transmitted to the fixing member 20 is transmitted to the filler 14 without leakage, and the tension members 2a and 2b. Can be transmitted to the filler 14 more effectively.

Further, since the tension of the tension members 2a and 2b is distributed and transmitted to the pressure receiving part 16 and the pipe part 12, there is no need to increase the thickness in order to ensure the strength of the pressure receiving part 16 and the pipe part 12, The amount of steel used in the fixing body 11 can be suppressed.
Further, since the tension force is dispersed through the filler 14, a structure for dispersing the tension force can be formed by performing a simple operation of filling the tube portion 12 with the filler 14. As a result, complicated processing can be suppressed during the manufacture of the fixing body 11, and the manufacturing cost can be reduced.
As described above, the cost of the fixing structure 10 can be reduced.

  Further, as in the present embodiment, when an existing wedge-type fixing tool is used as the fixing member 20, it is possible to reduce the manufacturing cost of the fixing member 20, and to reliably reduce the cost of the fixing structure 10. Can be achieved.

Further, according to the fixing structure 1 according to the present embodiment, since the fixing end portions 3a and 3b are fixed to the structure 4 by the fixing structure 10 which is reduced in cost, the cost of the fixing structure 1 can be reduced. Can be achieved.
Furthermore, according to the fixing method according to the present embodiment, since the connecting step is performed after the fixing step, the initial tension force of the tension members 2a and 2b can be distributed and transmitted to the pressure receiving portion 16 and the tube portion 12.

  In the present embodiment, a ready-made wedge-type fixing tool is used as the fixing member 20, but the fixing member 20 is not limited to this, and the fixing member 20A is formed in a cylindrical shape as in the fixing structure 10A shown in FIG. Alternatively, a ready-made crimping grip attached to the fixing end portions 3a and 3b by crimping from the outside in the radial direction may be employed.

  Further, as in the fixing structure 10B shown in FIG. 5, the inner peripheral surface of the tube portion 12 may include a tapered surface 12a that gradually decreases in diameter from the other side L2 toward the one side L1. In this case, the tension transmitted to the filler 14 can be effectively transmitted to the pipe portion 12.

In the present embodiment, the fixing ends 3a and 3b of the plurality of tension members 2a and 2b are fixed to the filler 14. However, the present invention is not limited to this. The fixing end portions 3 a and 3 b may be fixed to the filler 14.
Furthermore, in the said embodiment, although the tension | tensile_strength material 2a, 2b shall be formed by twisting several wire rod 18, the tension | tensile_strength material 2a, 2b may be comprised with the one wire rod 18. FIG.

(Second Embodiment)
Next, a fixing structure according to a second embodiment of the present invention will be described.
In the second embodiment, the same components as those in the first embodiment are denoted by the same reference numerals, description thereof is omitted, and only different points will be described.

As shown in FIG. 6, in the fixing structure 31 in the fixing structure 30 of the present embodiment, the fixing tool main body 32 includes the tube portion 12 and the lid portion 17, and the fixing tool main body 32 and the pressure receiving portion 33 are separated. It is composed of members.
The surface of the filler 14 facing the one side L <b> 1 is flush with the opening end surface of the one side L <b> 1 of the tube portion 12 of the fixing tool main body 32.

As shown in FIG. 7, the pressure receiving portion 33 is formed in an annular shape (ring shape) disposed coaxially with the fixing tool main body 32, and is 2 along a sectional surface passing through the central axis (the tube axis O). It is divided. As shown in FIG. 6, in the pressure receiving portion 33, the tube portion 12 of the fixing tool body 32 abuts from the other side L2, and the fixing end portions 3a and 3b of the tension members 2a and 2b are inserted. .
And in this embodiment, the pressure receiving part 33 is connected by contact | abutting to the structure 4 from the said other side L2. In the illustrated example, the outer peripheral edge portion of the pressure receiving portion 33 is in contact with the opening peripheral edge portion of the insertion hole 4 a of the structure 4.

Next, a fixing method for fixing the fixing end portions 3a and 3b to the structure 4 by the fixing structure 31 will be described.
In this fixing method, for example, after the fixing tool main body 32 has entered the insertion hole 4a of the structure 4 in the connecting step, the fixing tool main body 32 is passed through the insertion hole 4a and the tension members 2a and 2b are inserted. While being inserted through the hole 4 a, a gap is made between the tube portion 12 and the filler 14 of the fixing tool main body 32 and the structure 4. The divided pressure receiving portions 33 are inserted into the gaps so as to sandwich the tendon members 2a and 2b in the radial direction. Then, the tube portion 12 and the filler 14 of the fixing tool main body 13 come into contact with the pressure receiving portion 33 from the other side L2, and the pressure receiving portion 33 comes into contact with the structure 4 from the other side L2, so that the fixing body 11 has a structure. Connected to object 4.

As described above, according to the fixing structure 31 according to the present embodiment, the pressure receiving portion 33 is connected to the structure 4 by coming into contact with the other side L2, so that the filler 14 is connected to the one side L1. The support pressure transmitted to the pressure receiving portion 33 toward the pressure receiving portion 33 can be directly received by the structure 4 from the pressure receiving portion 33.
Further, as described above, the pressure receiving portion 33 is connected to the structure 4 by coming into contact with the structure 4 from the other side L2. Therefore, another member for connecting the fixing body 11 and the structure 4 (for example, the first embodiment). The pressure bearing plate 15) shown in FIG. 5 is not necessary, and the manufacturing cost of the fixing structure 31 can be reliably suppressed.

(Third embodiment)
Next, a fixing structure according to a third embodiment of the present invention will be described.
Note that in the third embodiment, the same components as those in the second embodiment are denoted by the same reference numerals, description thereof is omitted, and only different points will be described.

  As shown in FIG. 8 and FIG. 9, in the fixing structure 41 in the fixing structure 40 of the present embodiment, the fixing member 42 is a plate-like shape arranged so that the outer peripheral surface faces the inner peripheral surface of the tube portion 12. Is formed. As shown in FIG. 9, the fixing member 42 is formed in a disc shape. As shown in FIG. 8, the fixing member 42 has a surface that extends along the radial direction and faces the one side L <b> 1. It is a bearing surface 19. Further, a minute gap 43 is provided over the entire circumference between the outer peripheral surface of the fixing member 42 and the inner peripheral surface of the pipe portion 12.

  A plurality of fixing end portions 3 a and 3 b are fixed to the fixing member 42. As shown in FIG. 9, a plurality of fixing holes 44 a and 44 b in which the fixing end portions 3 a and 3 b are fixed by the wedge 21 are formed in the fixing member 42 at equal intervals. In the illustrated example, as the fixing holes 44a and 44b, a first fixing hole 44a disposed on the tube axis O and the circumferential direction so as to surround the first fixing hole 44a from the outside in the radial direction. And a plurality of second fixing holes 44b arranged at equal intervals. The first fixing end 3a is fixed to the first fixing hole 44a, and the second fixing end 3b is fixed to the second fixing hole 44b.

Next, a fixing method for fixing the fixing end portions 3a and 3b to the structure 4 by the fixing structure 41 will be described.
In this fixing method, a plurality of tendons 2a and 2b fixed to the fixing member 42 are inserted into the pipe portion 12 during the fixing step. Here, in the present embodiment, the fixing member 42 is formed in a plate shape so that the outer peripheral surface is opposed to the inner peripheral surface of the tube portion 12, and thus the fixing member 42 is formed in the tube portion 12 with the diameter described above. Accordingly, the fixing end portions 3a and 3b can be positioned in the pipe portion 12 with high accuracy in the radial direction. In this state, by fixing the fixing end portions 3a and 3b to the filler 14, the radial positions of the fixing ends 3a and 3b with respect to the filler 14 can be adjusted with high accuracy.

As described above, according to the fixing structure 41 according to the present embodiment, the radial position of the fixing end portions 3a and 3b with respect to the filler 14 can be adjusted with high accuracy, and the tension material 2a, The tension force 2b can be effectively transmitted from the fixing end portions 3a and 3b.
Further, as in the present embodiment, when the plurality of fixing end portions 3a and 3b are fixed to the fixing member 42, the relative positional relationship between the fixing end portions 3a and 3b in the tube portion 12 is determined with high accuracy. Therefore, the tension of the tension members 2a and 2b can be effectively dispersed and transmitted to the filler 14. As a result, the fixing end portions 3a and 3b can be more reliably fixed to the structure 4.

(Fourth embodiment)
Next, a fixing structure according to a fourth embodiment of the present invention will be described.
In the fourth embodiment, the same components as those in the first embodiment are denoted by the same reference numerals, description thereof is omitted, and only different points will be described.

As shown in FIG. 10, in the fixing structure 51 in the fixing structure 50 of the present embodiment, the fixing member 42 shown in the third embodiment is adopted instead of the fixing member 20 shown in the first embodiment. ing. In the pressure receiving portion 16, a positioning plate 53 having positioning holes 52a and 52b in which the fixing end portions 3a and 3b are fitted is disposed.
As shown in FIG. 11, the positioning plate 53 includes a main body plate 54 through which positioning holes 52 a and 52 b are penetrated, and a plurality of projecting plates 55 that protrude from the main body plate 54 toward the outer side in the radial direction. The main body plate 54 and the protruding plate 55 are integrally formed, and the front and back surfaces thereof are flush with each other.

  As the positioning holes 52a and 52b, a first positioning hole 52a disposed on the tube axis O and an equal interval in the circumferential direction so as to surround the first positioning hole 52a from the outside in the radial direction. A plurality of second positioning holes 52b. The first fixing end 3a is fitted in the first positioning hole 52a, and the second fixing end 3b is fitted in the second positioning hole 52b.

  A space 55a is provided between the plurality of protruding plates 55, and the positioning plate 53 is lightened by providing a lightening effect by the space 55a. In the illustrated example, the plurality of projecting plates 55 are provided to project from the outer peripheral edge of the portion of the main body plate 54 where the positioning holes 52a and 52b are formed toward the outer side in the radial direction. The peripheral edges of the positioning holes 52a and 52b in the main body plate 54 are reinforced. Further, the front end surface of each protruding plate 55 and the inner peripheral surface of the pressure receiving portion 16 are opposed to each other with a minute gap 55b and are close to each other.

  Here, as shown in FIG. 10, the fixing end portions 3a and 3b are inclined with respect to the tension direction T (the direction of the tube axis O) of the tension members 2a and 2b. In the illustrated example, the second positioning hole 52b of the positioning plate 53 is disposed on the inner side in the radial direction than the second fixing hole 44b of the fixing member 42, and the second fixing end 3b is connected to the tension. Inclined with respect to the direction T.

Next, a fixing method for fixing the fixing end portions 3a and 3b to the structure 4 by the fixing structure 51 will be described.
In this fixing method, before the fixing step, a fitting step of fitting the fixing end portions 3a and 3b of the tension members 2a and 2b into the positioning holes 52a and 52b of the positioning plate 53 is performed.
In the fixing step, the plurality of tendons 2 a and 2 b fixed to the fixing member 42 are inserted into the pipe portion 12, and the positioning plate 53 is disposed in the pressure receiving portion 16. Accordingly, the fixing end portions 3a and 3b can be positioned in the radial direction with high accuracy in the pressure receiving portion 16. In this state, by fixing the fixing end portions 3a and 3b to the filler 14, the fixing end portions 3a and 3b are highly accurate in the radial direction in the tube portion 12 as shown in the third embodiment. The position of the fixing end portions 3a and 3b with respect to the filler 14 in the radial direction can be reliably adjusted with high accuracy.

As described above, according to the fixing structure 51 according to the present embodiment, the radial positions of the fixing end portions 3a and 3b with respect to the filler 14 can be reliably adjusted with high accuracy, and the tensioning material can be adjusted. The tension of 2a and 2b can be more effectively transmitted from the fixing end portions 3a and 3b.
Further, as in the present embodiment, when a plurality of fixing end portions 3 a and 3 b are fitted in the positioning holes 52 a and 52 b, the relative positional relationship between the fixing end portions 3 a and 3 b in the pressure receiving portion 16. Can be adjusted with high accuracy, and the tension of the tension members 2a and 2b can be more effectively dispersed and transmitted to the filler 14. As a result, the fixing end portions 3a and 3b can be more reliably fixed to the structure 4.

Further, since the fixing end portions 3 a and 3 b are inclined with respect to the tension direction T, the fixing end portions 3 a and 3 b are connected to the filler 14 by the fixing force between the fixing ends 3 a and 3 b and the filler 14. Tension can be transmitted effectively.
In this embodiment, the fixing member 42 shown in the third embodiment is adopted instead of the fixing member 20 shown in the first embodiment, but the present invention is not limited to this.

(Fifth embodiment)
Next, a fixing structure according to a fifth embodiment of the present invention will be described.
In the fifth embodiment, the same components as those in the fourth embodiment are denoted by the same reference numerals, description thereof is omitted, and only different points will be described.

As shown in FIG. 12, in the fixing structure 61 in the fixing structure 60 of the present embodiment, the fixing tool main body 62 includes the tube portion 12 and the pressure receiving portion 16, and faces the other side L2. Open.
And in this embodiment, the fixing member 42 is formed in the plate shape which obstruct | occludes the pipe part 12 from the said other side L2. The fixing member 42 is connected to the opening end face on the other side L2 of the tube portion 12, and in the example shown in the drawing, the fixing member 42 and the fixing tool main body 62 are integrally formed.

Next, a fixing method for fixing the fixing end portions 3a and 3b to the structure 4 by the fixing structure 61 will be described.
In this fixing method, the filler 14 is filled into the tube portion 12 during the fixing step. Here, since the fixing member 42 is formed in a plate shape that closes the tube portion 12 from the other side L2, it is possible to suppress the filler 14 from leaking from the opening portion of the other side L2 of the tube portion 12. Can do.

  As described above, according to the fixing structure 61 according to the present embodiment, since the fixing member 42 closes the pipe portion 12, the leakage of the filler 14 from the pipe portion 12 as described above is suppressed. Therefore, it is not necessary to provide a dedicated member (for example, the lid portion 17 shown in the fourth embodiment), and the amount of steel material required for the fixing body 11 can be suppressed. Thereby, the manufacturing cost of the fixing structure 61 can be surely suppressed.

  Further, when the fixing member 42 is connected to the pipe portion 12 as in this embodiment, the fixing member 42 can be positioned with high accuracy in the radial direction, and the fixing body 11 is manufactured. In the tube portion 12, the fixing end portions 3a and 3b can be positioned with high accuracy in the radial direction. As a result, the radial positions of the fixing end portions 3a and 3b with respect to the filler 14 can be adjusted with high accuracy, and the tension of the tension members 2a and 2b can be effectively applied from the fixing end portions 3a and 3b. Can communicate.

  In the present embodiment, the positioning plate 53 is provided. However, the positioning plate 53 may be omitted as in the fixing structure 61A shown in FIG.

(Sixth embodiment)
Next, a fixing structure according to a sixth embodiment of the present invention will be described.
In the sixth embodiment, the same components as those in the first embodiment are denoted by the same reference numerals, description thereof is omitted, and only different points will be described.

  As shown in FIG. 14, in the fixing structure 71 of the fixing structure 70 of the present embodiment, the fixing body 11 applies tension to the tension members 2a and 2b by pulling the fixing body 11 from the other side L2. Non-applying means (for example, a jack) can be detachably mounted.

  In the illustrated example, a mounting portion 73 having a female screw 72 to which the applying means is screwed is formed on the lid portion 17 of the fixing tool main body 13. The mounting portion 73 protrudes from the radial center portion of the lid portion 17 toward the one side L1, and the female screw 72 opens toward the other side L2. Further, a flange portion 74 projects from the end portion on the one side L1 of the mounting portion 73 toward the outside in the radial direction.

Next, a fixing method for fixing the fixing end portions 3a and 3b to the structure 4 by the fixing structure 71 will be described.
In this fixing method, in the connecting step, the applying means is attached to the female screw 72 of the attaching portion 73, and tensioning force is applied to the tension members 2a and 2b by the applying means.

Next, the operation of the fixing structure 71 will be described.
In the fixing structure 71, the tension force of the tension members 2a and 2b is dispersed not only in the pressure receiving portion 16 and the pipe portion 12 via the filler 14 as described above but also in the lid portion 17. Communicated. That is, the tension force of the tension members 2 a and 2 b transmitted to the filler 14 is transmitted as a support pressure to the flange portion 74 and then transmitted to the lid portion 17 via the mounting portion 73.

As described above, according to the fixing structure 71 according to the present embodiment, the same operational effects as those of the first embodiment can be obtained.
In this embodiment, the fixing body 11 is provided with the mounting portion 73 and the flange portion 74. However, a different configuration may be adopted as long as the applying means can be detachably mounted. It is.

(Seventh embodiment)
Next, a fixing structure according to a seventh embodiment of the present invention will be described.
Note that in the seventh embodiment, the same components as those in the first embodiment are denoted by the same reference numerals, description thereof is omitted, and only different points will be described.

As shown in FIGS. 15 and 16, a gusset plate 4 b in which a first pin hole 82 is formed protrudes from the structure 4 of the fixing structure 80 of the present embodiment.
The fixing structure 81 of the present embodiment includes a connecting portion 84 that is connected to the tube portion 12 and can be connected to the structure 4 from the one side L1. As shown in FIG. 16, the connecting portion 84 includes a pair of connecting plates 85 protruding from the lid portion 17 of the fixing tool main body 13 toward the other side L2. These connecting plates 85 face each other with a gap into which the gusset plate 4b can be inserted. Each connecting plate 85 is provided with a second pin hole 86 so as to face the first pin hole 82 of the gusset plate 4b. In the first pin hole 82 and the second pin hole 86, A pin member 87 is inserted and fixed.

  As described above, according to the fixing structure 81 according to the present embodiment, the tension force of the tension members 2a and 2b is distributed and transmitted to the pressure receiving portion 16 and the tube portion 12 via the filler material 14 as described above. After that, it is transmitted to and received by the structure 4 via the connecting portion 84, the pin member 87, and the gusset plate 4b. Thereby, the fixing end portions 3 a and 3 b can be reliably fixed to the structure 4.

(Eighth embodiment)
Next, a fixing structure according to an eighth embodiment of the present invention will be described.
In the eighth embodiment, the same components as those in the seventh embodiment are denoted by the same reference numerals, description thereof is omitted, and only different points will be described.

As shown in FIG. 17, in the fixing structure 91 of the fixing structure 90 of the present embodiment, the tube portion 12 of the fixing tool body 13 is gradually reduced in diameter from the other side L2 toward the one side L1. It has a hollow frustoconical shape. The inner peripheral surface of the tube portion 12 is a tapered surface 92 that gradually decreases in diameter from the other side L2 toward the one side L1.
Further, the fixing structure 91 employs the fixing member 42 shown in the third embodiment instead of the fixing member 20 shown in the first embodiment.

  In the pressure receiving portion 16, the positioning plate 53 shown in the fourth embodiment is disposed. As shown in FIG. 18, in this positioning plate 53, one positioning hole 52c is disposed on the tube axis O, and a plurality of fixing end portions 3a, 3b are mutually connected in this one positioning hole 52c. Closely arranged. In the illustrated example, in the positioning hole 52c, the first fixing end portion 3a and the second fixing end portion 3b are in close contact with each other, and the second fixing end portions 3b adjacent in the circumferential direction are in close contact with each other.

  As described above, according to the fixing structure 91 according to the present embodiment, the same operational effects as those of the eighth embodiment can be obtained.

(Ninth embodiment)
Next, a fixing structure according to a ninth embodiment of the invention will be described.
Note that in the ninth embodiment, the same components as those in the first embodiment are denoted by the same reference numerals, description thereof is omitted, and only different points will be described.

As shown in FIG. 19, in the fixing structure 101 of the fixing structure 100 of the present embodiment, the plurality of wires 18 at the fixing end portions 3a and 3b are untwisted and tensioned by the tension members 2a and 2b. It is inclined with respect to the direction T (the direction of the tube axis O). In the illustrated example, the plurality of wires 18 at the fixing end portions 3a and 3b are bent so as to be gradually separated from each other toward the tip.
Further, an enlarged diameter portion 18a is formed at the tip of the wire 18 in the fixing end portions 3a and 3b. In the illustrated example, the enlarged diameter portion 18a is spherical.

Next, a fixing method for fixing the fixing end portions 3a and 3b to the structure 4 by the fixing structure 101 will be described.
In this fixing method, instead of the fixing step, an inclination step is performed in which the plurality of wire rods 18 at the fixing end portions 3a and 3b are gradually inclined away from each other toward the tip. At this time, for example, the tip of the wire 18 is inclined by bending.

  As described above, according to the fixing structure 101 according to the present embodiment, the plurality of wires 18 at the fixing end portions 3a and 3b are inclined with respect to the tension direction T. The tension force can be effectively transmitted from the wire 18 to the filler 14 by the fixing force with the material 14. Thereby, it is possible to effectively transmit the tension force to the filler 14, and the fixing end portions 3a and 3b can be more reliably fixed to the structure 4.

Further, since the enlarged diameter portion 18a is formed at the tip of the wire 18 at the fixing end portions 3a and 3b, the tension force can be more effectively transmitted from the wire 18 at the fixing end portions 3a and 3b to the filler 14. it can.
Further, as described above, the fixing ends 3a and 3b can be more reliably fixed to the structure 4 by a simple process of inclining the plurality of wires 18 with respect to the tension direction T. The manufacturing cost of 101 can be reliably suppressed.

In the present embodiment, the fixing ends 3a and 3b of the plurality of tension members 2a and 2b are fixed to the filler 14, but the present invention is not limited to this, and the fixing structure 101A shown in FIG. As described above, the fixing end 3 c of one tension member 2 c may be fixed to the filler 14.
Furthermore, in the present embodiment, the enlarged diameter portion 18a is formed at the tip of the wire 18 in the fixing end portions 3a, 3b, and 3c. However, as in the fixing structures 101B and 101C shown in FIGS. The enlarged diameter portion 18a may not be provided.

The technical scope of the present invention is not limited to the above embodiment, and various modifications can be made without departing from the spirit of the present invention.
For example, in each of the embodiments described above, the pressure receiving portion 16 is formed in a ring shape, but is not limited thereto. For example, the pressure receiving portion 16 may be formed of a plurality of plate members provided at intervals in the circumferential direction.

  In addition, it is possible to appropriately replace the constituent elements in the embodiment with known constituent elements without departing from the spirit of the present invention, and the above-described modified examples may be appropriately combined.

1, 30, 40, 50, 60, 70, 80, 90, 100 Fixing structure 2a, 2b, 2c Tension members 3a, 3b, 3c Fixing end 4 Structure 10, 10A, 10B, 31, 41, 51, 61, 61A, 71, 81, 91, 101, 101A, 101B Fixing structure 11 Fixing body 12 Tube portion 14 Filler 16, 33 Pressure receiving portion 18 Wire 18a Expanding portion 19 Bearing surface 20, 20A, 42 Fixing members 52a, 52b 52c Positioning hole 53 Positioning plate L1 One side L2 The other side T Tension direction

Claims (13)

A fixing structure for fixing a fixing end of a tendon to a structure,
A fixing member to which the fixing end is fixed and connectable to the structure;
The fixing body is
A tube portion in which the fixing end portion is inserted from an opening on one side;
A filler filled in the tube and fixed in a state where the fixing end is embedded;
A pressure receiving portion in close contact with the filler from the one side,
The fixing structure is characterized in that the filler is made of a mortar material, a resin material, or a mixed material of a mortar material and a resin material. The fixing structure according to claim 1,
The fixing structure is characterized in that the fixing end portion is fixed to a fixing member having a pressure bearing surface in close contact with the filler from the other side opposite to the one side. The fixing structure according to claim 2,
The fixing structure, wherein the fixing member is embedded in the filler. The fixing structure according to claim 3,
The fixing structure, wherein the fixing member is formed in a plate shape having an outer peripheral surface opposed to an inner peripheral surface of the pipe portion. The fixing structure according to claim 2,
The fixing structure is characterized in that the fixing member is formed in a plate shape that closes the tube portion from the other side. The fixing structure according to any one of claims 1 to 5,
The fixing structure according to claim 1, wherein the fixing end portion is inclined with respect to a tension direction of the tension material. The fixing structure according to claim 1,
The tension material is formed by twisting a plurality of wires,
The fixing structure, wherein the plurality of wires at the fixing end portion are untwisted and inclined with respect to a tension direction of the tension material. The fixing structure according to claim 7,
A fixing structure in which a diameter-expanded portion is formed at a tip of the wire at the fixing end. The fixing structure according to any one of claims 1 to 8,
The fixing structure is characterized in that the pressure receiving portion is formed in a ring shape in which the fixing end portion is inserted and in close contact with the outer peripheral edge portion of the filler from the one side. The fixing structure according to claim 9,
The pressure receiving part is connected to the pipe part,
A fixing structure having a positioning hole into which the fixing end is fitted is disposed in the pressure receiving portion. The fixing structure according to claim 9 or 10,
The fixing structure is characterized in that the pressure receiving portion is connected by contacting the structure from the other side opposite to the one side. With tendons,
A fixing structure comprising: a fixing end portion of the tension material fixed by the fixing structure according to claim 1. A fixing method for fixing the fixing end portion to the structure by the fixing structure according to claim 1,
A fixing step of inserting the fixing end into the tube portion, filling the tube portion with the filler, and fixing the fixing end to the filler;
And a connecting step of connecting the fixing body to the structure after the fixing step.

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