JP3684369B2 - Prestress introduction method and concrete structure - Google Patents

Description

The present invention relates to a prestress introduction method and a concrete structure, and more particularly to a prestress introduction method and a concrete structure in which prestress is partially introduced into a predetermined region of the concrete structure.
About.

Conventionally, when prestress is introduced into a concrete structure, particularly in the case of a post-tension method, the following procedure is used.
This work procedure will be described with reference to FIG.
1 Assemble the reinforcing bars.
2 A duct 2 is disposed at a predetermined position of the assembled reinforcing bar over the entire length of the concrete structure 1 to be constructed.
3 A PC steel material as the tendon material 3 is inserted into the duct 2, and a form frame is installed around the reinforcing bar.
4 Place concrete in the formwork.
5 After the concrete is hardened, one end of the tendon 3 is fixed by providing anchor means (not shown) for fixing the tendon 3 at one end of the constructed concrete structure 1.
6 Next, a fixing tool 4 for fixing the other end of the tension member 3 and a jack 5 for tensioning the tension member 3 are disposed at the other end of the concrete structure 1. After tensioning 3, the fixing member 4 is pressed against the tension material 3 by the jack 5, thereby fixing and fixing the other end of the tension material 3.
7 Next, the jack 5 is removed.
By the above procedure, prestress is applied to the concrete structure.

JP 56-12465

By the way, in such a conventional construction method, the following problems to be improved remain.
That is, in the method described above, prestress is introduced over the entire length of the concrete structure to be constructed, but depending on the concrete structure, prestress may be partially introduced into a predetermined region. There is a case.
When the pre-stress is introduced into such a partial area, the fixing tool 4 must be installed inside the concrete structure 1. When the above-described technique is used, the fixing tool 4 is used for tension. In order to fix the material 3, it is necessary to press the fixing device 4 to the tension material 3 by the jack 5, and therefore the jack 5 must also be disposed in the concrete structure 1. It is virtually impossible to introduce prestress in a specific area.

This invention is made | formed in view of such a conventional problem, and it aims at performing the introduction of prestress to the partial area | region of a concrete building reliably.
Here, the concrete structure includes a structure constituting the structure as a whole or a component of a precast structure.

In order to achieve the above-described object, the prestress introduction method according to claim 1 of the present invention is provided.
An anchor means installed at one end portion of the prestress introduction area inside the concrete structure and to which one end portion of the tendon is fixed, and at the other end portion of the prestress introduction area inside the concrete structure A fixing ring that is provided so as to surround the tension member, and is interposed between the fixing ring and the tension member, and the fixing ring and the tension member. by being press-fitted between the wood, which consists of a plurality of wedges for fixing the tension member to the fixing ring by a pressing member for elastically pressed toward the wedge into the fixed internal ring,
Said fixing ring, surrounds the end of the wedge, said tension member has a lid body to be passed through is attached, the pressing member between the lid and the wedge is interposed, the lid Is provided with a guide pipe that guides the tension material that is allowed to pass through the lid body along the axial direction of the fixing ring, and the guide pipe includes the tension material when the tension material is tensioned. Using a prestress introduction device provided with a sliding ring to be slid, a duct installation step of installing a duct in the prestress introduction region, a tension material insertion step of inserting the tension material into the duct, An attaching step of attaching anchor means to one end of the tendon, a fixing tool inserting step of inserting the other end of the tendon into the fixing tool, and the fixing tool being moved over the tendon. An abutting step for abutting against the end of the duct, a guiding step for guiding the tension material to the side surface of the concrete structure, and an assembly for assembling a mold and placing concrete on the mold An installation step, a jack installation step of installing a jack on a side surface of the concrete structure, a jack fixing step of fixing the tension material to the jack, and a slide for guiding the tension material in the tension direction by the sliding ring. A moving step and a tensioning step of tensioning the tendon with the jack.
The concrete structure according to claim 2 of the present invention is constructed by the prestress introduction method according to claim 1.
According to a third aspect of the present invention, there is provided a concrete structure that elastically moves the sliding ring toward the wedge between the guide pipe and the sliding ring of the concrete structure according to the second aspect. A pressing member for pressing is interposed.
The concrete structure according to claim 4 of the present invention is disposed on the fixing ring of the concrete structure according to claim 2 or claim 3 at right angles to the tension direction of the tension material, and the tension A bearing plate for supporting the tension applied to the material is provided.
A concrete structure according to claim 5 of the present invention is provided with a curved duct for guiding the tendon of the concrete structure according to any one of claims 2 to 4 to a side surface of the concrete structure. It is characterized by being.

  According to the present invention, the tensioning material fixing tool is installed inside the concrete structure, and the tensioning material is tensioned in a state where a jack for tensioning the tensioning material is installed on the surface of the concrete construction part, and After removing the jack, the tendon can be held in tension, so that prestress can be reliably introduced into selected areas of the concrete structure.

Hereinafter, an embodiment of the present invention will be described with reference to FIGS.
In the following description, the same parts as those in FIG.

The present embodiment is applied to a pier 12 including a footing portion 10 and a pier portion 11, and prestress is introduced into a continuous portion of the footing portion 10 and the footing portion 10 of the pier portion 11. It is a thing.
That is, the prestress introduction device according to the present embodiment is installed in one end portion of the prestress introduction region inside the footing portion 10 and the anchor means 13 to which one end portion of the tension material 3 is fixed, The fixing tool 14 embedded in the other end portion of the prestress introduction region inside the pier portion 11 and the side surface of the pier portion 11 that is installed in the vicinity of the other end portion of the prestress introduction region. The jack 15 for applying tension to the tension material 3 is provided.
Here, as the tension material 3, a PC steel material, a coated PC steel material in which an organic material is applied to the surface of the PC steel material, or the like is used.
More specifically, as shown in FIG. 2, the fixing tool 14 is interposed between the fixing ring 16 provided so as to surround the tendon 3, and the fixing ring 16 and the tendon 3. together, by being pressed between the tension material 3 and the fixed ring 16, a plurality of wedges 17 for fixing the tension member 3 to the fixed ring 16, the wedge 17 to the fixed ring 16 It is comprised by the press member 18 which presses elastically toward.

  A lid body 19 is attached to the fixing ring 16 so as to surround the end portion of the wedge 17 and through which the tension material 3 passes. The pressing member 18 is interposed between the lid body 19 and the wedge 17. Is intervening.

The lid body 19 is provided with a guide pipe 20 that guides the tension material 3 that is allowed to pass through the lid body 19 along the axial direction of the fixing ring 16.
The guide pipe 20 is provided with a sliding ring 21 that is slid with the tensioning material 3 when the tensioning material 3 is tensioned, and between the guide pipe 20 and the sliding ring 21. A pressing member 22 that elastically presses the sliding ring 21 toward the wedge 17 is interposed.

  Further, in the present embodiment, the fixing ring 16 is provided with a pressure bearing plate 23 that is disposed orthogonal to the tension direction of the tension material 3 and supports the tension force applied to the tension material 3.

  Further, in the pre-stress introduction region formed from the footing part 10 to the pier part 11, the tension member 3 is placed between the part where the anchor means 13 is installed and the part where the jack 15 is installed. A curved duct 24 is provided for guiding to the side surface of the pier 11.

  In the prestressed concrete structure according to this embodiment configured as described above, first, a reinforcing bar (not shown) for constructing the pier 12 is assembled, and the reinforcing bar shown in FIG. As shown, a straight tubular duct 25 having a length corresponding to the prestress introduction area is installed (duct installation process). Next, the tendon 3 is inserted into the duct 25 as shown in FIG. 4 (tensile insert step), and one end of the tendon 3 is projected from the lower end of the duct 25 as shown in FIG. The anchor means 13 is attached to the projecting portion of the tendon 3 and one end of the tendon 3 is fixed (attachment step).

Next, as shown in FIG. 6, the other end of the tension member 3 is inserted into the fixing tool 14 from the side of the pressure plate 23 (fixing tool insertion step), and as shown in FIG. Is moved so as to slide the tendon 3 and is brought into contact with the other end of the duct 25 (contact process).
During the movement of the fixing tool 14, the wedge 17 is moved in a direction to come out of the fixing ring 16 against the elasticity of the pressing member 18. The movement with respect to is performed smoothly.

  Next, as shown in FIG. 8, a curved duct 24 is inserted into the tendon 3 pulled out from the fixing tool 14, and the tendon 3 is guided to the side surface of the constructed pier 11 (guide). Process).

  From this, a formwork is formed surrounding the reinforcing bars, and concrete is placed therein as shown in FIG. 9 (placement step).

Then, as shown in FIG. 10, when the concrete is hardened to a predetermined hardness, a jack 15 is installed on the side surface of the pier 11 and the tendon 3 is fixed to the jack 15 (jack fixing step). .
Next, the tension material 3 is tensioned by the jack 15 (tensioning process).

  When the tensioning material 3 is tensioned in this manner, the tensioning material 3 is stretched and moved relative to the fixing tool 14, but the elongation is caused by the wedge 17 constituting the fixing tool 14 of the pressing member 18. It is allowed to move against the elasticity in the direction of removal from the fixing ring 16, and as a result, a smooth tensioning operation is performed.

And the predetermined tension | tensile_strength is given to the tension material 3, and the said jack 15 is removed after the said concrete fully hardens | cures.
Here, if the tension | tensile_strength of the jack 15 with respect to the said tension material 3 is cancelled | released, the said tension material 3 will try to deform | transform so that the elongation may be returned.
However, when the tension member 3 is deformed in the contraction direction, the wedge 17 in contact with the tension member 3 is moved in a direction to be pushed into the fixing ring 16, so that these fixing rings 16 The tendon 3 is fixed to the fixing ring 16.
Therefore, the tension material 3 is held in a tensioned state, and prestress is applied from the footing portion 10 to a predetermined region of the pier portion 11.

  On the other hand, in the present embodiment, the tension material 3 is guided in the tension direction by the guide pipe 20 and the sliding ring 21 as shown in FIG. Step), the force in the direction of falling does not act on the wedge 17, whereby the tension material 3 is smoothly opened and fixed by the wedge 17, and the aforementioned prestress is smoothly introduced.

  Thus, according to this embodiment, prestress can be reliably introduced into a certain limited area of the concrete structure.

  Further, when the fixing tool 14 is to be installed at the tension end, since the axial rebar and the band reinforcing bar are closely arranged at the tension end (that is, the end portion of the pier 12), Although it is difficult to install, the installation of the fixing tool 14 is facilitated by installing it inside the pier 12 as in this embodiment. Is done.

It should be noted that the shapes and dimensions of the constituent members shown in the above embodiment, the steps of the manufacturing process, and the like are merely examples, and various changes can be made based on design requirements and the like.
For example, it is possible to fill the duct 25 with a filler such as cement milk in order to integrate the tension material 3 with the rust prevention and the main body concrete.
In order to perform such filling of the filler, as shown in FIG. 1, the anchor means 13 is provided with an injection pipe 26 that allows the anchor means 13 and the upper portion of the footing portion 10 to communicate with each other, and At the upper end of the duct 25, an exhaust pipe 27 is provided in the vicinity of the fixing tool 14 so as to communicate the upper end of the duct 25 with the outside of the pier 12. Air in the duct 25 is discharged from the exhaust pipe 27. By filling the filler from the injection tube 26 while discharging, the filler can be filled smoothly.
In addition, when the filler is filled in this way, after the tension material 3 is tensioned, the tension material 3 is filled and cured, or the tension material is filled before the filler is cured. A prestressing method such as tensioning 3 is employed.

It is a longitudinal section showing an abutment as a concrete structure concerning one embodiment of the present invention. It is a longitudinal cross-sectional view of the principal part which shows one Embodiment of this invention. It is a 1st duct installation process drawing which concerns on one Embodiment of this invention. It is a tendon insertion process figure which concerns on one Embodiment of this invention. It is an attachment process figure concerning one embodiment of the present invention. It is a fixing tool insertion process figure which concerns on one Embodiment of this invention. It is a contact process figure concerning one embodiment of the present invention. It is a guidance process figure concerning one embodiment of the present invention. It is a placement process figure concerning one embodiment of the present invention. It is a jack fixing process figure concerning one embodiment of the present invention. It is a sliding process figure which concerns on one Embodiment of this invention. It is a longitudinal cross-sectional side view which shows one prior art example.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Concrete structure 2 Duct 3 Tensile material 4 Fixing tool 5 Jack 10 Footing part 11 Bridge pier part 12 Bridge pier 13 Anchor means 14 Fixing tool 15 Jack 16 Fixing ring 17 Wedge 18 Press member 19 Cover body 20 Guide pipe 21 Sliding ring 22 Press Member 23 Pressure bearing plate 24 Duct 25 Duct 26 Injection pipe 27 Exhaust pipe

Claims (5)

An anchor means installed at one end portion of the prestress introduction area inside the concrete structure and to which one end portion of the tendon is fixed, and at the other end portion of the prestress introduction area inside the concrete structure A fixing ring that is provided so as to surround the tension member, and is interposed between the fixing ring and the tension member, and the fixing ring and the tension member. by being press-fitted between the wood, which consists of a plurality of wedges for fixing the tension member to the fixing ring by a pressing member for elastically pressed toward the wedge into the fixed internal ring,
Said fixing ring, surrounds the end of the wedge, said tension member has a lid body to be passed through is attached, the pressing member between the lid and the wedge is interposed, the lid Is provided with a guide pipe that guides the tension material that is allowed to pass through the lid body along the axial direction of the fixing ring, and the guide pipe includes the tension material when the tension material is tensioned. Using a prestress introduction device provided with a sliding ring to be slid, a duct installation step of installing a duct in the prestress introduction region, a tension material insertion step of inserting the tension material into the duct, An attaching step of attaching anchor means to one end of the tendon, a fixing tool inserting step of inserting the other end of the tendon into the fixing tool, and the fixing tool being moved over the tendon. An abutting step for abutting against the end of the duct, a guiding step for guiding the tension material to the side surface of the concrete structure, and an assembly for assembling a mold and placing concrete on the mold An installation step, a jack installation step of installing a jack on a side surface of the concrete structure, a jack fixing step of fixing the tension material to the jack, and a slide for guiding the tension material in the tension direction by the sliding ring. A pre-stress introduction method comprising a moving step and a tension step of tensioning the tension material by the jack. A concrete structure constructed by the prestress introduction method according to claim 1. The concrete structure according to claim 2, wherein a pressing member that elastically presses the sliding ring toward the wedge is interposed between the guide pipe and the sliding ring. . 4. The support ring is provided on the fixing ring so as to be orthogonal to a tension direction of the tension material and to support a tension force applied to the tension material. 5. The concrete structure described. The concrete structure according to any one of claims 2 to 4, further comprising a curved duct for guiding the tendon to a side surface of the concrete structure.

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