JP6131292B2 - PC steel set amount correction jig and correction method using the correction jig - Google Patents

Description

  In the present invention, a new PC structure in which prestress is introduced into a concrete frame is tensioned and fixed using PC steel, or an existing PC structure in which prestress is introduced into a concrete frame is re-tensioned and fixed using PC steel. In particular, the present invention relates to a jig and method for correcting a set amount generated after fixing, and more particularly, to a set amount correcting jig and method capable of correcting a set amount by an easy operation even in a narrow position. In the present invention, the PC steel material includes a PC steel wire and a PC steel stranded wire.

  The most common PC fixing system for fixing PC steel (PC cable) composed of PC steel wire or PC steel wire is composed of a casting block and an anchor head embedded in concrete. After tension, the PC steel wire or the PC steel wire is fixed to the anchor head by a wedge, and the fixing is completed by filling the casting block and the sheath with the grout from the grout hole provided in the casting block.

  Wedge fixing in such a fixing operation (using a fixing tool (fixing grip) consisting of a wedge and a sleeve with a taper), the PC steel wire is bitten on the inner periphery of the wedge, and the wedge outer periphery and the sleeve taper When fixing, the wedge protrudes to the outside of the sleeve. However, when the tension load of the jack is released (unloaded) at the time of fixing, the wedge moves into the sleeve due to the return (loosening) of the PC steel wire. The amount of set is generated by sinking, and the prestress is reduced by that amount (set loss). This set loss has a greater effect as the length of the wire (member length) is shorter than that of the PC steel, and the ratio to the design prestress is large, and it may be difficult to introduce the design prestress. For this reason, the operation | work which correct | amends this set amount is needed. As a method of this correction work, a ring nut method and a shim plate method are conventionally known.

As disclosed in, for example, Japanese Patent Application Laid-Open No. 2007-231683 (Patent Document 1), the ring nut method uses a fixing tool attached with a ring nut that is screwed to a sleeve, and after being tensioned once, A tension stand (ram chair) is installed and re-tensioned, and the gap between the bearing plate and the fixing tool generated by the set amount is corrected by rotating the ring nut.
For example, as disclosed in Japanese Patent Application Laid-Open No. 2011-043025 (Patent Document 2), the shim plate method is re-installed with a reaction force stand after performing tension / fixing work using a normal fixing tool. Tension is applied, and correction is made by inserting a shim plate into the gap between the bearing plate and the fixing tool generated by the set amount.

JP 2007-231683 A JP 2011-043025 A

However, in the method of correcting the set amount using the ring nut disclosed in Patent Document 1 and the method of correcting the set amount using the shim plate disclosed in Patent Document 2, normal tension fixing work is performed (1 After the second tension), the set amount is corrected by using a ring nut or shim plate for the gap between the fixing tool and the bearing surface that is generated when the second tension is re-tensioned (secondary tension). That is, in any method, in order to correct the set amount, the installation of the reaction force frame is an indispensable work. For this work, the step of temporarily removing the hydraulic jack after the primary tension, There are four extra steps: a step for setting the reaction force frame, a step for setting the hydraulic jack after that, and a step for removing the reaction force frame after secondary tension compared to the case where the reaction force frame is not used. (The secondary tension step itself is the same whether or not a reaction force stand is used). As described above, the method using the reaction force mount has a problem in that work man-hours in a narrow position increase and work efficiency is very poor.

  The present invention has been developed in view of the above-mentioned problems of the prior art, and the object of the present invention is to repeatedly use a heavy hydraulic jack in a PC structure in which a set amount is generated in a tension / fixing operation. An object of the present invention is to provide a set amount correction jig and method capable of correcting the set amount by reducing the number of work steps by an easy operation in a narrow position while reducing the labor for attachment / detachment.

In order to achieve the above object, the PC steel set amount correcting jig and method according to the present invention employ the following technical means.
That is, the PC steel set amount correction jig according to the present invention is used to primarily tension the PC steel and apply a compressive force to the PC structure, and corrects the PC steel set amount by a ring nut. Attached to the tip of a hydraulic jack used for secondary tension. The set amount correction jig includes a main body portion, a fixed ring, and a movable ring. In this set amount correction jig, the main body portion has a substantially hollow cylindrical shape having a center hole through which the PC steel material passes, and a fixing tool having a ring nut on the bearing plate side and an axis of the PC steel material. A fixed ring and a movable ring having a symmetrical center shape are housed, and the hydraulic jack is attached to the counter-bearing pressure plate side, and the fixed ring cannot be rotated around the shaft core on the inner surface of the hollow cylinder of the main body. Provided with a plurality of fixed bearing portions of the same thickness in the axial direction at a portion of a predetermined central angle centered on the shaft core, and the movable ring is formed on the inner surface of the hollow cylinder of the main body portion. A plurality of movable support portions having the same thickness in the axial direction at a portion of a predetermined central angle centered on the shaft core, the movable ring including the fixed support portion and the fixed support portion; From the primary tension state where the movable bearing part overlaps By rotating the movable ring around the axis, a hole for mounting a rotating rod for making a transition to a secondary tension state where the fixed bearing part and the movable bearing part do not overlap is provided on the outer circumferential surface of the ring. The main body has a cutout outer peripheral surface of a portion that rotates a rotating rod mounted in the hole around the axis.

  Preferably, the fixed ring and the movable ring have a substantially hollow cylindrical shape having a central hole through which the PC steel material passes, and a part of the outer peripheral surface is cut away with a predetermined central angle remaining. The fixed outer support surface and the movable support pressure portion are formed by the remaining outer peripheral surface, and the axial end surfaces of the outer peripheral surfaces of the fixed support pressure portion and the movable support pressure portion are in contact with each other. It can be configured to be in a primary tension state and to be in a secondary tension state when the end surfaces in the axial direction of the outer peripheral surfaces of the fixed bearing portion and the movable bearing portion cut out contact each other.

More preferably, N is a natural number of 2 or more, the predetermined central angle is approximately (360 ° / 2N), and the fixed bearing portion and the movable bearing portion are approximately (360 ° / N) apart. N pieces of each are provided, and the movable ring is rotated approximately (360 ° / 2N) around the axis to change from the primary tension state to the secondary tension state.
More preferably, the N is 3, the predetermined central angle is approximately 60 °, the fixed bearing portions and the movable bearing portions are provided at intervals of approximately 120 °, and the movable ring is provided. It can be configured to rotate approximately 60 ° around the axis to change from the primary tension state to the secondary tension state.

More preferably, the fixing ring can be formed integrally with the main body.
The PC steel set amount correction method according to the present invention is a correction method using the above-described PC steel set amount correction jig, and includes a fixing tool including a ring nut, a fixed ring in a primary tension state, and a movable member. A preparatory step for attaching the correction jig to the hydraulic jack by attaching a hydraulic jack to the counter-bearing plate side of the main body portion in which the ring is housed on the bearing plate side, and a fixing tool including the pressure plate and the ring nut. A primary tensioning step for abutting and tensioning the PC steel using the hydraulic jack to apply a compressive force to the PC structure; and a rotating rod mounted in the hole of the movable ring. An adjustment step of rotating the movable ring around the axial center by rotating the stationary ring and the movable ring to a secondary tension state, and the supporting plate and the The ring nut is rotated through a secondary tension step in which the PC steel material is secondarily tensioned at least for the set amount by contacting the body part, and a gap between the bearing plate and the fixing tool generated by the set amount. And a post-processing step of releasing the tension load in the secondary tension step and removing the hydraulic jack to which the correction jig is attached.

  Preferably, in the primary tension step, the secondary tension step receives the reaction force of the hydraulic jack in the order of the main body, the fixed ring, the movable ring, the fixing tool including the ring nut, and the pressure plate. The main body portion and the bearing plate can be configured to receive the reaction force of the hydraulic jack in this order.

  According to the PC steel set amount correction jig and method according to the present invention, in a PC structure where a set amount is generated in tension / fixing work, the work amount is reduced by an easy operation in a narrow position to correct the set amount. can do.

It is a two-plane figure of the primary tension state of the set amount correction jig of PC steel materials concerning an embodiment of the invention. It is a two-plane figure of the secondary tension state of the set amount correction jig of PC steel materials concerning an embodiment of the invention. It is a double view of the main-body part which comprises the set amount correction jig | tool of PC steel materials which concerns on embodiment of this invention. It is a double view of the fixing ring which comprises the set amount correction jig | tool of PC steel materials which concerns on embodiment of this invention. It is a perspective view of the fixing ring shown in FIG. It is a two-view figure of the movable ring which comprises the set amount correction jig | tool of PC steel materials which concerns on embodiment of this invention. It is a perspective view of the movable ring shown in FIG. It is a perspective view of a fixed ring and a movable ring in a primary tension state. It is a perspective view of the fixed ring and movable ring of a secondary tension state. It is a schematic diagram which shows the procedure of the process of the set amount correction method which concerns on embodiment of this invention.

  Hereinafter, a set amount correction jig for PC steel according to an embodiment of the present invention (hereinafter may be simply referred to as a set amount correction jig or a correction jig) and implementation of the present invention using this correction jig The PC steel set amount correction method (hereinafter, may be simply referred to as “set amount correction method” or “correction method”) will be described in detail with reference to the drawings. Here, with respect to the drawings, between the plan view and the perspective view, and between the perspective view and another perspective view, of the members (fixed ring 400, movable ring 500) that can rotate around the axis of the PC steel material The angles around the axis are not exactly the same.

The method for correcting the amount of PC steel set according to the present invention is an existing method in which prestress is introduced into a concrete frame even when a new PC structure that introduces prestress into a concrete frame is tensioned and fixed using PC steel. The present invention can also be suitably applied to a case where a PC structure is re-tensioned and fixed using PC steel for repair.
The set amount correction jig and the set amount correction method for PC steel according to the present embodiment correct the primary tension and the set amount of PC steel at the time of fixing of the PC steel in the PC structure that applies compressive force to the housing part. It is applied without using a reaction force stand for secondary tension. The PC steel set amount correction jig and the set amount correction method according to the present embodiment are not particularly limited, but are suitable for replacement methods of precast PC floor slabs in PC bridges, which have large work space limitations. ing.

[Set amount correction jig (dedicated product)]
Before describing the set amount correction method according to the present embodiment, the set amount correction jig 100 used in the set amount correction method has a special structure that matches the set amount correction method. The set amount correction jig 100 will be described.
FIG. 1 shows a two-sided view of the set amount correcting jig 100 in a primary tension state, and FIG. 2 shows a two-sided view of the set amount correcting jig 100 in a secondary tension state. This set amount correction jig 100 is used together with a fixing tool 200 for fixing and fixing a PC steel material.

  This set amount correction jig 100 is used for first tensioning the PC steel material to apply a compressive force to the PC structure and for secondary tension correcting the set amount of the PC steel material with a ring nut. 1 is attached to the tip of a hydraulic jack 700 (only a lock-off piston is shown as the hydraulic jack 700 in FIGS. 1 and 2). The set amount correction jig 100 includes a main body 300, a fixed ring 400, and a movable ring 500. The fixing ring 400 may be formed integrally with the main body 300. And although the material of these main-body parts 300, the fixed ring 400, and the movable ring 500 is comprised by the chromium molybdenum steel which has the outstanding strength / weight ratio, it is not limited to this material.

・ Body 300
In addition to FIGS. 1 and 2, the main body 300 will be described with reference to two views of the main body 300 constituting the set amount correction jig 100 shown in FIG.
The main body 300 is generally a hollow cylindrical shape having a central hole 360 through which the PC steel material 600 passes, and is a sleeve 210 having a ring nut 220 on the bearing plate side and a wedge fitted into the sleeve 210. A fixing tool 200 composed of a certain wedge (wedge is not shown), a fixed ring 400 having a shape centered on the axis of the PC steel 600, and a movable ring 500 are housed, and hydraulic pressure is applied to the counter-pressure plate side. A jack 700 is attached. The fixed ring 400 and the movable ring 500 are accommodated in a space formed by the outer peripheral surface 310 of the main body 300 and a notch 350 described later so as to slide on the hollow cylindrical inner surface 320 that is the inner peripheral surface of the outer peripheral surface 310. Is done. In the following description, it is assumed that the shaft core is the shaft core of the PC steel material 600 even if it is simply described as the shaft core.

Further, the main body 300 includes a notch 350 in which an outer peripheral surface 310 of a portion for rotating a rotating rod 560 mounted in a hole 540 of the movable ring 500 described later around the axis of the PC steel material 600 is notched.
Although not limited, in order to improve work efficiency, the outer diameter of the movable ring 500 is large enough to be able to rotate and slide about the axis with respect to the hollow cylindrical inner surface 320 of the main body 300. Now (the outer diameter of the movable ring 500 is slightly smaller than the inner diameter of the inner surface 320 of the hollow cylinder), it is possible to easily transition from the primary tension state to the secondary tension state. Further, the end surface of the outer peripheral surface 310 is chamfered so that the fixed ring 400 and / or the movable ring 500 can be easily inserted.

  1 to 3, the main body 300 includes an outer peripheral surface 310 that forms a hollow cylinder, and a fixing ring 400 is attached to a hollow cylindrical inner surface 320 that is an inner peripheral surface inside the outer peripheral surface 310. And the ring outer peripheral surface of the movable ring 500 is contact | abutted. In this case, when the fixing ring 400 is a separate part from the main body 300, the male screw that has passed through the fixing hole 440 of the fixing ring 400 is screwed into the fixing holes 340 at about three positions where the female screw is cut. The fixing ring 400 is screwed to the main body 300, and the fixing ring 400 is held around the axis so as not to rotate. On the other hand, the movable ring 500 is fitted to the hollow cylindrical inner surface 320 so as to be able to rotate and slide around the axis.

The hollow cylindrical inner surface 320 is not formed over the entire circumference of the cylinder of the main body 300. As described above, in order to make the transition from the primary tension state to the secondary tension state (for example, approximately around the axis). In order to rotate the rotating rod 560 around the axis of the PC steel member 600, the outer peripheral surface 310 of the PC steel member 600 is provided with a notch portion 350 that is cut by about 90 ° in the horizontal direction. The notch 350 is not limited to a shape in which approximately 90 ° in the horizontal direction is cut away. This position and angle are set based on a rotation angle for rotating the movable ring 500 around the axis from a primary tension state described later to a secondary tension state. In the set amount correction jig 100 according to the present embodiment, the movable ring 500 is rotated by approximately 60 ° around the axis to change from the primary tension state to the secondary tension state (the rotation angle is approximately 60 °). ) The notch portion 350 has a shape in which approximately 90 ° is cut away.

  In attaching the hydraulic jack 700 to the counter-pressure plate side of the main body 300, it is only necessary to provide an attachment portion corresponding to various hydraulic jacks 700. For example, the screw jack 370 is provided, and the hydraulic jack 700 is installed. What is necessary is just to comprise so that attachment is possible. Here, the set amount correction jig 100 attached to the hydraulic jack 700 is basically not removed, and the work including the primary tension step and the secondary tension step is performed on the PC steel material 600. The PC steel material 600 is tension-fixed by the ring nut type fixing tool 200 by repeating the minute (the part of the tension part).

・ Fixing ring 400
In addition to FIGS. 1 and 2, two views of the fixing ring 400 constituting the set amount correction jig 100 shown in FIG. 4, a perspective view of the fixing ring 400 shown in FIG. 5, and FIGS. 8 and 9. The fixed ring 400 will be described with reference to perspective views of the fixed ring 400 and the movable ring 500 shown in FIG.

  The fixing ring 400 is generally provided on the hollow cylindrical inner surface 320 of the main body 300 so as not to rotate around the axis of the PC steel material 600 (as described above, the fixing ring 400 is integrated with the main body 300. A plurality of fixed bearing portions 410 (convex portions) having the same thickness in the axial center direction are provided in a portion having a predetermined central angle centered on the shaft core. The fixing ring 400 has a substantially hollow cylindrical shape having a center hole 450 through which the PC steel material 600 passes, and a notch 420 (recessed portion) in which a part of the outer peripheral surface is notched with a predetermined center angle portion remaining. ) And the remaining outer peripheral surface forms a fixed bearing portion 410 (this end surface is referred to as a fixed bearing surface 412).

  A fixed bearing surface 412 which is an end surface in the axial direction on the outer peripheral surface of the fixed bearing portion 410 of the fixing ring 400 and an end surface in the axial direction on the outer peripheral surface of the movable bearing portion 510 which will be described later. When the movable support surface 512 comes into contact with each other, the primary tension state is established (see FIGS. 1 and 8), and the fixed end surface 432 that is the end surface in the axial direction of the notch 420 of the fixing ring 400 and the movable support surface 512 are formed. The secondary tension state is brought about by contact (see FIGS. 2 and 9).

  Further, in the fixing ring 400, when N is a natural number of 2 or more, the predetermined center angle described above is approximately (360 ° / 2N), and the fixed bearing portion 410 is approximately (360 ° / N). N pieces are provided at intervals, and a movable ring 500, which will be described later, is rotated about (360 ° / 2N) around the axis to change from the primary tension state shown in FIGS. 1 and 8 to the secondary tension shown in FIGS. Transition to the state. N described above is 2, 3, 4 or the like.

In particular, in the present embodiment, the above-mentioned N is 3, the above-mentioned predetermined central angle is about 60 °, the three fixed bearing portions 410 are provided at intervals of about 120 °, and the movable ring 500 is provided. Is rotated about 60 ° around the axis to shift from the primary tension state shown in FIGS. 1 and 8 to the secondary tension state shown in FIGS. 2 and 9.
Although not limited, in order to improve work efficiency, the size of the notch portion 420 of the fixed ring 400 is larger (or vice versa) than the size of the movable support pressure portion 510 of the movable ring 500. The primary tension state can be easily changed to the secondary tension state.

  Thus, as shown in FIGS. 1 to 3, 4, and 5, the fixing ring 400 has a thin hollow cylindrical shape (doughnut shape) having a central hole 450 through which the PC steel material 600 passes, A notch 420 in which a part of the outer peripheral surface is cut out by leaving approximately 60 ° at intervals of 120 ° (the remaining portion is an annular surface 430, and the end surface on the movable ring 500 side of the annular surface 430 is a fixed end surface) 432) and the remaining outer peripheral surface forms a fixed bearing portion 410 (the end surface on the movable ring 500 side is a stationary bearing surface 412). A fixing hole 440 for screwing the fixing ring 400 to the main body 300 is provided in the fixed end surface 432 so as to penetrate the annular surface 430. In FIG. 5, the notch 420 is virtually indicated by a dotted line.

Moreover, the boundary part from the fixed bearing part 410 to the notch part 420 is chamfered, and has a curved surface shape (R shape).
・ Moveable ring 500
In addition to FIGS. 1 and 2, two views of the movable ring 500 constituting the set amount correction jig 100 shown in FIG. 6, a perspective view of the movable ring 500 shown in FIG. 7, and FIGS. 8 and 9. The movable ring 500 will be described with reference to perspective views of the fixed ring 400 and the movable ring 500 shown in FIG.

  In general, the movable ring 500 is provided on the inner surface 320 of the hollow cylinder of the main body 300 so as to be rotatable around the axis of the PC steel 600, and is axially centered at a predetermined central angle centered on the axis. Are provided with a plurality of movable supporting pressure portions 510 (convex portions) having the same thickness. The movable ring 500 has a substantially hollow cylindrical shape having a center hole 550 through which the PC steel material 600 passes, and a notch portion 520 (recessed portion) in which a part of an outer peripheral surface is notched with a predetermined center angle portion remaining. ), And the remaining outer peripheral surface forms a movable supporting portion 510 (this end surface is referred to as a movable supporting surface 512).

  The movable ring 500 rotates the movable ring 500 around the axial center from a primary tension state where the fixed bearing surface 412 of the fixed bearing portion 410 and the movable bearing surface 512 of the movable bearing portion 510 are in contact with each other and overlap each other. The hole 540 in which the rotating rod 560 for shifting to the secondary tension state where the fixed bearing surface 412 of the fixed bearing portion 410 and the movable bearing surface 512 of the movable bearing portion 510 do not overlap with each other is formed in the ring of the movable ring 500. Prepare on the outer peripheral surface.

  A movable bearing surface 512 that is an end surface in the axial direction on the outer circumferential surface of the movable bearing portion 510 of the movable ring 500 and an end surface in the axial direction on the outer circumferential surface of the stationary bearing portion 410 that is left. When a fixed bearing surface 412 comes into contact with each other, a primary tension state is established (see FIGS. 1 and 8), and the fixed end surface 432 and the movable bearing surface 512 which are end surfaces in the axial direction of the notch 420 of the fixing ring 400 described above. Are brought into a secondary tension state (see FIGS. 2 and 9).

  Further, the movable ring 500 corresponds to the fixed ring 400, and when the N is a natural number of 2 or more, the predetermined center angle described above is approximately (360 ° / 2N), and the movable bearing portion 510 N at intervals of approximately (360 ° / N), and the movable ring 500 is rotated approximately (360 ° / 2N) around the axis so that the primary tension state shown in FIGS. Transition to the secondary tension state shown in FIG. N described above is 2, 3, 4 or the like.

In particular, in the present embodiment, the above-mentioned N is 3, the above-mentioned predetermined central angle is about 60 °, the three movable support portions 510 are provided at intervals of about 120 °, and the movable ring 500 is provided. Is rotated about 60 ° around the axis to shift from the primary tension state shown in FIGS. 1 and 8 to the secondary tension state shown in FIGS. 2 and 9.
Although not limited, in order to improve work efficiency, the size of the movable supporting pressure portion 510 of the movable ring 500 is smaller (or vice versa) than the size of the notch portion 420 of the fixed ring 400. The primary tension state can be easily changed to the secondary tension state.

  Thus, as shown in FIGS. 1 to 3, 6, and 7, the movable ring 500 has a thin hollow cylindrical shape (doughnut shape) having a central hole 550 through which the PC steel material 600 passes, A notch portion 520 in which a part of the outer peripheral surface is cut out at intervals of 120 ° at intervals of 120 ° (the remaining portion is an annular surface 530, and the end surface on the fixing ring 400 side of the annular surface 530 is a fixed end surface) 532), and the remaining outer peripheral surface forms a movable bearing portion 510 (the end surface on the fixed ring 400 side is a movable bearing surface 512). On the outer peripheral surface of the movable support portion 510, a hole portion 540 having a female screw for screwing a rotating rod 560 for rotating the movable ring 500 about the axis around 60 ° is provided. . The distal end of the rotating rod 560 is cut off with a male screw that engages with the female screw of the hole 540. In FIG. 7, the notch 520 is virtually indicated by a dotted line.

Further, the boundary portion from the movable supporting pressure portion 510 to the notch portion 520 is chamfered to have a curved surface shape (R shape).
Here, in the perspective view (excluding two views), the outer peripheral surface of the annular surface 530 of the movable ring 500 is chamfered, and the outer peripheral surface of the annular surface 430 of the fixed ring 400 is not chamfered. However, both may be chamfered, both may not be chamfered, or only one may be chamfered.

[Set amount correction method]
The PC steel set amount correction method using the set amount correction jig 100 according to the present embodiment as described above will be described with reference to the drawings in which FIG. 10 is added to FIGS.
(1) Preparatory Step As shown in FIGS. 1, 10A, and 10B, the fixing tool 200 including the ring nut 220 and the fixed ring 400 and the movable ring 500 in the primary tension state are the bearing plates. A hydraulic jack 700 is attached to the side of the main body 300 housed on the side opposite to the support plate. Thereby, the set amount correction jig 100 is attached to the hydraulic jack 700.

  More specifically, in this preparation step, the movable ring 500 is set in a primary tension state on the hydraulic jack 700 to which the main body 300 on which the fixing ring 400 is held non-rotatably is attached. In the state, the fixing tool 200 (sleeve 210, ring nut 220 and wedge) before the primary tension is placed on the pressure plate side space of the main body 300 (a space constituted by the outer peripheral surface 310 and the notch 350 in the main body 300). Store in.

At this time, the PC steel material 600 passes through the inner surface of the sleeve 210 of the fixing tool 200, the center hole 550 of the movable ring 500, the center hole 450 of the fixing ring 400, and the center hole 360 of the main body 300 from the bearing plate side. 700 is connected.
(2) Primary tension step Next, as shown in FIG. 1, FIG. 10 (A) and FIG. 10 (B), as the primary tension step, the support plate 800 and the fixing tool 200 including the ring nut 220 are provided. The PC steel member 600 is tensioned by using the hydraulic jack 700 and a predetermined compressive force is applied to the PC structure.

  At this time, the hydraulic jack 700 takes a reaction force as follows. When the end surface of the ring nut 220 is in contact with the bearing plate 800 (the ring nut 220 protrudes slightly toward the bearing plate 800 from the sleeve 210), the main body 300, the fixed ring 400, the movable The hydraulic jack 700 receives a reaction force in the order of the ring 500, the ring nut 220, and the bearing plate 800. When the end surface of the sleeve 210 is in contact with the bearing plate 800 (the sleeve 210 slightly protrudes toward the bearing plate 800 from the ring nut 220), the main body 300, the fixing ring 400, The hydraulic jack 700 receives a reaction force in the order of the movable ring 500, the ring nut 220, the sleeve 210, and the bearing plate 800.

(3) Adjustment Step Next, the set amount correction jig 100 is shifted from the primary tension state shown in FIGS. 1 and 8 to the secondary tension state shown in FIGS. 2 and 9. More specifically, the rotating ring 560 mounted in the hole 540 of the movable ring 500 is rotated by approximately 60 ° around the axis, thereby rotating the movable ring 500 by approximately 60 ° around the axis, so that the fixed ring 400 and The movable ring 500 is changed to the secondary tension state. At this time, as shown in FIG. 10B, the rotating rod 560 protrudes from the notch 350 of the main body 300 to the outside of the set amount correction jig 100, and the operator can easily move the rotating rod 560 around the axis. Can be rotated approximately 60 °.

In this adjustment step, the tension of the hydraulic jack 700 is temporarily relaxed (the jack stroke is returned) so that the movable ring 500 can be rotated, and the rotating rod 560 is rotated about 60 ° around the axis. Let
(4) Secondary tension step Next, as shown in FIG. 2 and FIG. 10 (C), as the secondary tension step, the support plate 800 and the main body 300 are brought into contact with each other, and the hydraulic jack 700 is used. The PC steel 600 is secondarily tensioned, and the PC steel is tensioned at least for the set amount to give a predetermined compressive force to the PC structure, and the set amount is corrected so as to obtain a compressive force in the structural calculation. At this time, the hydraulic jack 700 takes (receives) a reaction force in the order of the main body 300 and the support plate 800.

(5) Correction Step Next, the ring nut 220 is rotated through the gap between the bearing plate 800 and the fixing tool 200 generated by the set amount of the secondary tension step, as in the conventional set amount correction of the ring nut method. Correct by
(6) Post-processing step Next, the tension load in the secondary tension step is released, and the hydraulic jack 700 to which the set amount correction jig 100 (the main body 300, the fixed ring 400, and the movable ring 500) is attached is removed. . When a plurality of PC steel materials 600 are provided in the PC structure, the above-described steps are repeated for all PC steel materials.

[Effects of set amount correction jig and set amount correction method]
Thus, according to the set amount correction jig and / or the set amount correction method according to the present embodiment, in the PC structure in which the set amount is generated in the tension / fixing operation, the secondary tension is applied using the reaction force stand. There are four steps: a step of temporarily removing the hydraulic jack after the primary tension, a step of setting the reaction force base, a step of setting the hydraulic jack after that, and a step of removing the reaction force base after the secondary tension. Steps are not required, and the set amount can be corrected by reducing the number of work steps with easy work in a narrow position.

  That is, as a conventional set amount correction method (whether a ring nut method or a shim plate method), a step of secondary tension (re-tension) using a reaction force stand after primary tension is indispensable. Installation of a force stand was an indispensable task. The present applicant thinks that this reaction force stand can be regarded as the one for changing the reaction force location of the hydraulic jack between the primary tension and the secondary tension, and thus the reaction force of the hydraulic jack is the primary tension. It is found that the reaction force mount is omitted by providing a set amount correction jig 100 (main body 300, fixed ring 400, and movable ring 500) that is attached to the tip of the hydraulic jack as a mechanism that changes with the secondary tension. It was. For this reason, in the set amount correction jig according to the present invention, the fixed ring 400 and the movable ring 500 are incorporated in the main body 300 as a mechanism for changing the size of the space for switching the reaction force location at the tip of the hydraulic jack. Thus, the reaction force at the time of primary tension is changed to the ring nut, and the reaction force at the time of secondary tension is changed from the bearing plate.

  The embodiment disclosed this time should be considered as illustrative in all points and not restrictive. The scope of the present invention is defined by the terms of the claims, rather than the description above, and is intended to include any modifications within the scope and meaning equivalent to the terms of the claims.

  The present invention is preferable for a correction jig and a correction method for a set amount that occurs when prestressing is applied by a PC steel material, and can correct the set amount by reducing work man-hours with easy work in a narrow position. Is particularly preferable.

100 Set amount correction jig 200 Fixing tool (fixing grip)
210 Sleeve 220 Ring nut 300 Body 400 Fixed ring 500 Movable ring 600 PC steel 700 Hydraulic jack

Claims (7)

Attached to the tip of a hydraulic jack that is used for primary tensioning of PC steel and applying compressive force to the PC structure, and for secondary tension that corrects the set amount of the PC steel with a ring nut. A PC steel set amount correction jig including a main body, a fixed ring, and a movable ring,
The main body portion has a substantially hollow cylindrical shape having a central hole through which the PC steel material passes, and a fixing ring having a symmetrical shape with the fixing tool having a ring nut on the side of the bearing plate and the axial center of the PC steel material. And the movable ring, the hydraulic jack is attached to the counter-pressure plate side,
The fixing ring is provided on the inner surface of the hollow cylinder of the main body so as not to rotate around the shaft core, and has a plurality of fixing supports having the same thickness in the axial direction at a predetermined central angle centered on the shaft core. With pressure part,
The movable ring is provided on the inner surface of the hollow cylinder of the main body so as to be rotatable around the axis, and a plurality of movable bearings having the same thickness in the axial direction at a predetermined central angle centered on the axis. Part
The movable ring rotates the movable ring around the shaft core from a primary tension state where the fixed bearing part and the movable bearing part overlap each other, thereby causing the fixed bearing part and the movable bearing part to move. Provided with a hole on the outer peripheral surface of the ring for mounting a rotating rod for transition to a secondary tension state that does not overlap,
The main body is a PC steel set amount correction jig in which an outer peripheral surface of a portion for rotating a rotating rod attached to the hole is rotated around the axis. The fixed ring and the movable ring have a substantially hollow cylindrical shape having a central hole through which the PC steel material passes, and a part of a predetermined central angle is left and a part of the outer peripheral surface is cut away to be left. The fixed bearing part and the movable bearing part are formed by an outer peripheral surface,
When the end faces in the axial direction of the outer peripheral surfaces of the fixed bearing part and the movable bearing part remaining in contact with each other, a primary tension state occurs, and the fixed bearing part and the movable bearing part are notched. The PC steel set amount correction jig according to claim 1, which is in a secondary tension state when end faces in the axial direction on the outer peripheral surface come into contact with each other. The predetermined central angle is approximately (360 ° / 2N), where N is a natural number equal to or greater than 2, and the fixed bearing portion and the movable bearing portion are each provided at an interval of approximately (360 ° / N). ,
The PC steel set amount correction jig according to claim 2, wherein the movable ring is rotated approximately (360 ° / 2N) around the axis to change from the primary tension state to the secondary tension state. N is 3,
The predetermined center angle is approximately 60 °, and the fixed bearing portion and the movable bearing portion are each provided at intervals of approximately 120 °,
The PC steel set amount correction jig according to claim 3, wherein the movable ring is rotated about 60 ° around the axis to change from the primary tension state to the secondary tension state.   The set amount correction jig for PC steel according to any one of claims 1 to 4, wherein the fixing ring is formed integrally with the main body. A correction method using the set amount correction jig for PC steel according to any one of claims 1 to 5,
Preparation for attaching the correction jig to the hydraulic jack by attaching a hydraulic jack to the counter-supporting plate side of the main body in which the fixing tool including the ring nut and the fixed and movable rings in the primary tension state are accommodated on the supporting plate side. Steps,
A primary tensioning step of bringing the pressure plate and the fixing tool including the ring nut into contact with each other and tensioning the PC steel using the hydraulic jack to apply a compressive force to the PC structure;
Adjustment for rotating the movable ring around the axis by rotating a rotating rod attached to the hole of the movable ring around the axis, thereby causing the stationary ring and the movable ring to transition to a secondary tension state. Steps,
A secondary tension step in which the pressure plate and the main body are brought into contact with each other, and the PC steel material is secondarily tensioned for at least a set amount;
A correction step of correcting the gap between the bearing plate and the fixing tool generated by the set amount by rotating the ring nut;
A post-processing step of releasing a tension load in the secondary tension step and removing a hydraulic jack to which the correction jig is attached. In the primary tension step, in response to the reaction force of the hydraulic jack in the order of the main body, the fixed ring, the movable ring, the fixing tool including the ring nut, and the pressure plate,
The set amount correction method according to claim 6, wherein in the secondary tension step, a reaction force of the hydraulic jack is received in the order of the main body portion and the bearing plate.