JP6308502B2 - Construction method of pre-tension slab in overhang construction - Google Patents

Description

  The present invention relates to a method for constructing a pretension floor slab for overhanging a corrugated steel web box girder bridge, and more particularly, a method for constructing a pretension floor slab capable of introducing prestress in a direction perpendicular to the bridge axis. .

  Conventional corrugated steel web box girder bridges often adopt a PC structure as a structure perpendicular to the bridge axis of the upper floor slab for the purpose of reducing dead load, improving load bearing capacity and durability. This PC structure generally introduces prestress by a post-tension method. The post-tension method introduces prestress to the floor slab part by holding PC steel material placed in a duct provided in the concrete of the floor slab and tensioning it with a hydraulic jack after holding the concrete and holding the tension with a fixing tool. To do. After the completion of the tension, cement grout is injected into the duct in order to prevent rust of the PC steel and to integrate the PC steel and concrete. Also, pre-grouting type PC steel is used in which the resin filled in the duct in advance is hardened by heat or moisture in order to eliminate the grout operation.

  For example, Patent Document 1 discloses a bridge girder construction method using a corrugated steel web. As a method for constructing this bridge girder, a method for constructing a bridge girder while supporting a formwork for each block using a moving laying apparatus and a corrugated steel web has been proposed.

JP 2008-38449 A

However, in the construction method described in Patent Document 1, it is difficult to introduce prestress in a direction perpendicular to the bridge axis. Moreover, the following problems exist in the conventional technology for introducing prestress in a direction perpendicular to the bridge axis.
a. Tension work increases in order to tension PC steel materials one by one. Moreover, an expensive fixing tool is required for the number of PC steel materials, and the operation cost increases.
b. In order to tension PC steel materials one by one, management of tension work is required for the number of PC steel materials, and management of tension work is complicated.
c. Grout type PC steel requires grout work. Further, if the grout filling operation is insufficient, the PC steel material may be corroded. Further, when the PC steel material is broken due to corrosion or the like, there is a risk of third party disaster due to concrete stripping off due to the jumping out of the PC steel material.
d. In the case of a pre-grout type PC steel material, the integration of the concrete and the PC steel material could not be ensured until the resin filled in the sheath was cured, and it took time for the work.

  In the present invention, an upper floor slab of a corrugated steel web box girder bridge has a PC structure that introduces prestress by a pretension method, so that prestress is introduced by adhesion between PC steel and concrete. It is an object of the present invention to provide a method for constructing a pretension floor slab in an overhanging construction that requires no work and is excellent in workability, economical efficiency and durability.

The present invention has the following contents.
(1) The construction method of the pretension slab in the overhang construction of the present invention is such that the upper floor slab and the lower floor slab are made of concrete, and the box cross-section girder in which the upper floor slab and lower floor slab are connected by corrugated steel plates. Is a method for constructing a pretension floor slab in an overhanging construction in which the building block is constructed for each predetermined length of construction block, and when a prestress is introduced in a direction perpendicular to the bridge axis of the upper floor slab, a dedicated pretension tension is applied. Using a device, prestress is introduced by a pretension method for each block of the overhang construction, and the reaction force of the pretension tension device is received by the existing floor slab and the reaction force receiving beam, and the pretension tension device is installed. It is characterized by being held by corrugated steel plates and existing floor slabs.
(2) The pretension tension device includes a pair of left and right tension beams, a reaction force receiving beam, a reaction force receiving base and a hydraulic jack, and is stretched between the left and right tension beams and penetrates through the inside of the new upper floor slab. Tension is applied to the steel material, and the tension is released after the upper floor slab concrete is hardened.

According to the construction method of the pretension slab in the overhang construction of the present invention, the upper floor slab and the lower floor slab are made of concrete, and the box-shaped cross-section girder in which the upper floor slab and the lower floor slab are connected by the corrugated steel plate. A construction method of a pretension floor slab in an overhang construction constructed by an overhang construction for each construction block of a predetermined length, which is a dedicated pre-tension tension device when introducing prestress in a direction perpendicular to the bridge axis of the upper floor slab Pre-stress is introduced into each block of the overhang construction by a pre-tension method, and the reaction force of the pre-tension tension device is received by the existing floor slab and the reaction force receiving beam, and the pre-tension tension device is corrugated. Since it is held by the steel plate and the existing floor slab, facilities such as a moving vehicle for supporting the pretension tension device can be omitted. Further, in the pretension system, the PC steel material and the concrete are integrated by the adhesive force, so that even if the PC steel material is cut halfway, the prestress of the entire floor slab is not lost. Furthermore, there is no possibility of the PC steel material jumping out, and the risk of third party damage due to the fall of the concrete piece is low. In addition, the pretension method is more economical than the post tension method because a fixing tool necessary for introducing prestress is not necessary. Moreover, since the PC steel material of the whole overhanging block is tensioned at once, labor saving of the tension work can be achieved, and the accuracy of tension management is also improved.
The pretension tension device includes a pair of left and right tension beams, a reaction force receiving beam, a reaction force receiving base, and a hydraulic jack, and is stretched between the left and right tension beams and penetrates through the inside of the new upper floor slab. Since the tension is applied to the upper floor slab concrete and the tension is released after hardening, the PC steel material of the entire overhanging block can be tensioned at once, and labor saving of the tension work can be achieved. It also improves the accuracy of tension management.

It is a side view of the pretension floor slab in the construction method of the pretension floor slab in the overhang construction of this invention. It is a top view of the same pretension floor slab. It is the sectional view on the AA line of FIG. FIG. 3 is a sectional view taken along line B-B in FIG. 2. It is CC sectional view taken on the line of FIG. It is a side view which shows the state before construction of the new floor board in the construction method of the pretension floor slab. It is sectional drawing which shows the state before construction of the new floor board in the construction method of the pretension floor slab. It is a side view which shows the installation of the tension apparatus and the tension process in the construction method of the pretension floor slab. It is sectional drawing which shows the installation of a tension device and the tension process in the construction method of the pretension floor slab. It is a side view which shows the placement process of the floor board concrete in the construction method of the pretension slab. It is sectional drawing which shows the placement process of the floor board concrete in the construction method of the pretension floor slab. It is a side view which shows the introduction process of the tension | tensile_strength in the construction method of the pretension floor slab, and the removal process of a tension device. It is sectional drawing which shows the introduction process of the tension | tensile_strength in the construction method of the pretension floor slab, and the removal process of a tension device.

  Hereinafter, the present invention will be described in detail with reference to the drawings illustrating an embodiment. FIG. 1 is a side view of a pre-tension floor slab in a method for constructing a pre-tension floor slab in overhang construction of the present invention, FIG. 2 is a plan view of the pre-tension floor slab of the present invention, and FIG. 3 is AA in FIG. 4 is a sectional view taken along the line BB in FIG. 2, and FIG. 5 is a sectional view taken along the line CC in FIG. The construction method of the pretension floor slab in the overhang construction of the present invention is a box-shaped cross section in which the upper floor slab 10 and the lower floor slab 11 are made of concrete and the upper floor slab 10 and the lower floor slab 11 are connected by a corrugated steel plate 12. Is a construction method for constructing the girders for each construction block of a predetermined length by overhang construction, and when introducing prestress in a direction perpendicular to the bridge axis of the upper floor slab 10, a dedicated pretension tension device 13 is provided. In use, prestress is introduced by a pretension method for each block W of the overhang construction, and the reaction force of the pretension tensioning device 13 is received by the existing floor slab 10a and the reaction force receiving beam 14 and the pretension tension The apparatus 13 is held by the corrugated steel plate 12 and the existing floor slab 10a.

  The corrugated steel plate 12 is formed by bending a structural steel plate to form a cross-section into a corrugated plate, and an upper flange 15 and a lower flange 16 made of steel plates are joined together by welding along an upper edge and a lower edge. The corrugated steel sheet 12 is manufactured in advance at a factory.

  The upper floor slab 10 and the lower floor slab 11 are formed by assembling a reinforcing bar into the form 24 and the form 25 of the lower floor slab constructed on site, and then placing concrete. The upper floor slab 10 is formed so as to be in close contact with the upper end of the welded upper flange 15 of the corrugated steel plate 12, and the lower floor slab 11 is formed so as to be in close contact with the lower end of the lower flange 16. Further, a non-illustrated misalignment member such as an angle diver or a stud diver is provided on the upper surface of the upper flange 15 and the lower surface of the lower flange 16, and is embedded in the newly installed upper floor slab 10 and lower floor slab 11. Therefore, the upper floor slab 10 and the lower floor slab 11 are fixed integrally with the corrugated steel sheet 12.

  Next, a method for introducing prestress in the direction perpendicular to the bridge axis to the upper floor slab 10 will be described. First, as shown in FIGS. 1 and 2, the pretension tension device 13 is held by the corrugated steel plate 12 and the existing upper floor slab 10 a.

  The pretension tension device 13 includes a pair of left and right tension beams 17 and 18, a reaction force receiving beam 14, a reaction force receiving base 19, and a hydraulic jack 20, and is formed in a substantially U shape in plan view. . A plurality of PC steel material fixing tools 21 for tensioning the PC steel material 23 are arranged on the tension beams 17 and 18. Further, a reaction force receiving base 19 protrudes from the proximal end of the tension beam 17 in a direction opposite to the upper floor slab 10a, and comes into contact with the end of the upper floor slab 10 when installed. Furthermore, a hydraulic jack 20 protrudes from the base end of the tension beam 18 in a direction opposite to the upper floor slab 10a, and abuts on the end of the upper floor slab 10 to fix the pretension tension device 13 when installed. . Moreover, the hydraulic jack 22 is arrange | positioned in the site | part which opposes the tension beam 18 of the reaction force receiving beam 14 arrange | positioned at the front side of the pretension tension apparatus 13. FIG.

  Next, each process of the construction method of the pretension slab in the overhang construction of this invention is demonstrated according to FIGS. FIG. 6 shows a state before construction of the new floor slab, in which the corrugated steel sheet 12 extending in the forward direction is formed in a range including the existing upper floor slab 10a, lower floor slab 11a, and one block W of the overhang construction. FIG. 7 is a cross-sectional view of a corrugated steel plate part.

  8 to 9 show the installation of the formwork 24 of the upper floor slab, the installation of the pretension tensioning device 13, the arrangement of the PC steel material 23, and the tensioning process. First, the movable work vehicle with the formwork and scaffolding suspended is moved forward, and the formwork 24 of the upper floor slab is installed. Next, the pretension tension device 13 is installed using the existing upper floor slab 10a and the corrugated steel plate 12. Specifically, as shown in FIGS. 1 and 2, the reaction force receiving beam 14 at the front end portion of the pretension tensioning device 13 is placed on the upper surface of the corrugated steel plate 12 and the reaction force receiving base 19 disposed at the base end portion. It fixes to the side of the existing upper floor slab 10a with the hydraulic jack 20. Further, when the hydraulic jack 20 is driven, the hydraulic jack 22 is also interlocked. After the pretension tensioning device 13 is fixed, a plurality of PC steel members 23 are stretched between the left and right tension beams 17 and 18 in order to introduce prestress in the direction perpendicular to the bridge axis to the upper floor slab. Tension is caused by the steel material fixing tool 21. The PC steel material 23 is disposed at a predetermined interval. In this way, the reaction force of the pretension tension device 13 is received by the existing floor slabs 10a and 11a and the reaction force receiving beam 14, and the pretension tension device 13 is held by the corrugated steel plate 12 and the existing floor slabs 10a and 11a. It is.

  FIGS. 10-11 shows the placement process of floor slab concrete. An upper floor slab form 24 is formed in a range including one block W of the overhang construction, and concrete is placed to form the upper floor slab 10. Further, after the lower floor slab form 25 is assembled, concrete is cast to form the lower floor slab 11.

  12-13 shows the introduction process of the tension | tensile_strength to the upper floor slab 10, and the removal process of the pretension tension | tensile_strength apparatus 13. FIG. After the placed concrete is hardened, the mold is removed and the PC steel material 23 is newly cut and cut at the end of the upper floor slab 10. By cutting the end portion, prestress in the direction perpendicular to the bridge axis is introduced into the upper floor slab 10. The pretension tensioning device 13 is also removed. Thus, the upper floor slab 10 for one block of the overhang construction is formed, and the prestress is introduced by the pretension method for each block W of the overhang construction using the dedicated pretension tension device 13. By repeating the above steps in sequence, a pretension slab for overhanging construction can be constructed.

  Furthermore, the present invention is not limited to the above-described embodiments, and various design changes can be made based on the description of the scope of claims.

DESCRIPTION OF SYMBOLS 10 Upper floor slab 11 Lower floor slab 12 Corrugated steel plate 13 Pre-tension tension device 14 Reaction force receiving beam 15 Upper flange 16 Lower flange 17 Tension beam 18 Tension beam 19 Reaction force receiving base 20 Hydraulic jack 21 PC steel material fixing tool 22 Hydraulic jack 23 PC Steel 24 Formwork of upper floor slab 25 Formwork of lower floor slab

Claims (2)

The upper floor slab and lower floor slab are made of concrete, and a box-shaped cross-section girder in which the upper floor slab and lower floor slab are connected with corrugated steel plates is constructed by overhang construction for each predetermined length of construction block. A construction method of a tension floor slab,
Upon introduction of the pre-stress on the bridge axis and the direction perpendicular to the top floor plate, using the up-les tension tensioning device, a prestress is introduced by the pre-tensioning for each block of the overhanging construction,
Construction of a pretension slab in overhang construction characterized by receiving the reaction force of the pretension tension device with an existing floor slab and a reaction force receiving beam and holding the pretension tension device with a corrugated steel plate and an existing floor slab Method. The pretension tension device includes a pair of left and right tension beams, a reaction force receiving beam, a reaction force receiving base, and a hydraulic jack.
The pretension in the overhanging construction according to claim 1, wherein tension is applied to the PC steel material which is stretched between the left and right tension beams and penetrates through the inside of the new upper slab, and the tension is released after the upper slab concrete is hardened. How to build a floor slab.

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