JP6323776B2 - Replacement method of concrete floor slab for elevated road and replacement PC floor slab by the same method - Google Patents

Description

  The present invention relates to a method for replacing a concrete floor slab for an elevated road in a steel girder bridge mainly composed of a steel girder and a concrete floor slab, and a replacement PC floor slab by the method.

  In general, a concrete slab in a steel girder bridge is a structural member that directly supports a vehicle, and is directly affected by an increase in vehicle traffic and an increase in the size of the vehicle, and there are many cases of damage requiring replacement. In addition, there are many cases of salt damage deterioration due to corrosion of steel in concrete due to the application of antifreezing agents in cold regions and the influence of incoming salt from the ocean.

  Conventionally, many repair methods have been developed as countermeasures against damage to the concrete slab as described above, but there is a method of replacing the concrete slab as a fundamental measure.

  As a method of replacing the concrete floor slab, after removing the existing floor slab, after assembling the formwork and rebar, placing concrete and constructing a new reinforced concrete floor slab, or after removing the existing floor slab, There are methods (for example, Patent Documents 1 and 2) in which precast prestressed concrete slabs (hereinafter referred to as PC slabs) are installed side by side and new PC floor slabs are installed, but these methods are used to replace the entire width of the road simultaneously. Therefore, the road becomes unusable in all widths, and the road must be closed during the construction period, which worsens the traffic situation of the road.

  As a method to solve this problem, the replacement of the concrete floor slab is done by dividing the road into the primary construction section and the secondary construction section in the width direction and continuing the sharing of the secondary construction section. There is a method of constructing replacement work, after completing the replacement of the primary construction section, sharing this as a road, and then replacing the remaining secondary construction section.

  More specifically, as shown in FIG. 6A, in the state where the entire width of the road on the concrete slab 1 is shared, it is temporarily supported on the lower surface of the cutting position 2 for dividing into two in the width direction. Girder 3 is installed. The temporary support beam 3 is supported by horizontal beams 5 and 5 supported by adjacent main steel beams 4 and 4.

  Next, as shown in FIG. 6 (b), the existing floor slab of the primary construction part 6 is removed in a state where the secondary construction part 7 at the cutting position 2 is shared, as shown in FIG. 6 (c). The precast PC plate 8 in which the floor slab 1 is halved is installed on the removed part.

  Next, as shown in FIG. 7 (d), the newly constructed precast PC plate 8 floor slab is shared, and the existing floor slab of the remaining secondary construction part 7 that has not been replaced is removed. As shown in FIG. 7 (e), the remaining half-split precast PC plate 9 is installed on the removed portion, and the floor plate 10 is formed by connecting the two floor plates 8, 9 together. Thus, there is a method in which the replacement is completed and shared across the entire width as shown in FIG.

JP 2007-239365 A JP 2009-264040 A

  In the conventional method described above, the floor slab 10 in which a plurality of precast PC plates 8 and 9 are connected and integrated in the width direction is configured, but simply by joining the precast PC plates 8 and 9 together. As shown in FIG. 8, the prestress distribution is such that no prestress is introduced into the joint side end portions of the precast PC plates 8 and 9, and the desired prestress is 100% effective at the end portions. This is from a position retracted by a certain length from.

  For this reason, conventionally, as shown in FIG. 9, a method of welding the rebars 11, 11 of each precast PC plate 8, 9, or as shown in FIG. 11 and 12, as shown in FIG. 11 and FIG. 12, the arc-shaped PC tension material insertion hole 13 is formed so as to straddle both the precast PC plates 8 and 9 and both ends are opened on the lower surface of each precast PC plate. There is a method in which the PC strand 14 for connection is passed through this, and the connection is made by tensioning the PC strand 14.

  Among these conventional methods, in the methods shown in FIGS. 9 and 10, since prestress is not introduced into the precast PC plate joining portion, it is essential to leave the temporary holding beam 3 as it is, as shown in FIGS. Even when tension is applied by the PC strand, if the PC strand 14 is short as shown in FIG. 11, there is a problem that the elongation allowance at the time of tension is insufficient and it is difficult to introduce sufficient prestress.

  As shown in FIG. 12, if the length of the PC strand 14 is a length necessary for introducing prestress, the prestress due to the PC tension material for the full width of each precast PC plate is provided at the end of each pretension precast PC plate 8.9. In other words, a portion where prestress due to the PC strand for connection is introduced is generated, which is uneconomical.

  Furthermore, when the precast PC plates 8 and 9 are connected and used, the PC tension material for introducing the prestress must be fixed at both ends of each precast PC plate, and thus requires a large amount of hardware for fixing. Since this hardware is an important part for the introduction and maintenance of prestress, it must be expensive because of its high quality in terms of material, dimensional accuracy, etc. There was a problem of greatly affecting replacement costs.

  In view of such a conventional problem, the present invention divides an existing floor slab into a plurality of road width directions and leaves the common part, and replaces the other part with a concrete construction for elevated road by split construction. In this replacement method, pre-stress is introduced between the divided parts of the new concrete floor slab after completion of the replacement work in a continuous state, and the floor slab is connected with the conventional pre-tension precast PC plate. The purpose of the present invention is to provide a method for replacing a concrete floor slab for an elevated road and a replacement floor slab that can be constructed at a low cost as compared with the case where it is configured.

The first feature of the present invention for achieving the above object is that the road width direction of the existing concrete floor slab for a plurality of lanes supported by a plurality of bridge girders installed in the road length direction is changed between the primary construction section and the secondary construction section. Set up a replacement section divided into construction sections, leave the secondary construction section in a state that can be shared as a road, replace the adjacent primary construction section, and use the primary construction section after the replacement as a road In the method of replacing the concrete floor slab for an elevated road, the secondary construction section is replaced by the replacement of the secondary construction section and integrated with the primary construction section to share the whole as a road. It is to remove the existing concrete floor slab of the primary construction part, to the primary construction part, which is its removal, new concrete of the primary construction unit bridged the pre-tensioned precast PC version that is granted a pre-stress in the width direction Building a deck, then on the new concrete floor slab of the primary construction unit was commonly used as a road, to remove the existing concrete floor slab of the secondary construction unit, the new concrete secondary construction at a portion that its removal It bridged the deck, the secondary construction unit end of the pretensioned precast PC version that is spanned above the end opposite to the said primary construction side of the new concrete floor slab of the secondary construction unit A post in which necessary stress is introduced by applying pre-stress to the new concrete floor slab of the secondary construction section by inserting a PC tension material for post tension continuously through the section and tensioning the PC tension material. with the tension PC slab, the post-tensioned PC slab and the pretensioning precast PC version the connecting portion and the bridged replacement PC to hung replacement PC slab obtained by introducing a prestress Hung replacement method flyover for concrete slabs made as characterized by the plate.
According to a second feature of the present invention, in addition to the configuration of the first feature, the post-tension PC floor slab has precast reinforced concrete plates arranged on a steel girder from which the existing concrete floor slab of the secondary construction section has been removed. A new concrete floor slab of the secondary construction part is constructed by erection, and then it is configured by applying prestress by the PC tension material for post tension.
According to a third feature of the present invention, in addition to the configuration of the first feature, the post-tension PC floor slab has a cast-in-place reinforced concrete slab placed on a steel girder from which the existing concrete slab of the secondary construction section has been removed. The fourth feature of the present invention is that it is constructed by constructing a new concrete floor slab for the secondary construction section and then applying prestress by the PC tension material for post tension. Prestress is introduced in the entire width direction of the floor slab, and is composed of a primary construction part and a secondary construction part that divide the width direction into two parts, and the primary construction part is prestressed by a pretension method. pretension precast PC Edition configured by supporting side by side a number the length of the steel girder, protruded on the back surface of the pretension precast PC version was Tension Bearing unit is provided, said secondary construction unit is configured with a post-tensioned PC slab by post-tensioning method, wherein the pretension precast PC version, the tension and the said post-tensioned PC slab end surface of the A PC tension material insertion hole that is open to communicate with the bearing portion is formed, and the post tension PC floor slab has a PC tension that is open to the end surface on the pretension precast PC plate side and the end surface on the opposite side. comprising a timber insertion hole by tensioning the two PC tendon insertion hole continuously for inserted through the post-tensioned PC tendon, together to introduce flop restless in the post-tensioning PC slab, the pretension precast PC version and the post-tensioning PC floor version and made by integrating the elevated road for hung replacement PC There on the plate.

In the present invention, the replacement of the primary construction section is performed by removing the existing concrete floor slab of the primary construction section, and installing a pretension precast PC version with prestress applied in the width direction on the removed primary construction section. After constructing a new concrete floor slab in the primary construction department and sharing the new concrete floor slab of the primary construction department as a road, the existing concrete floor slab of the secondary construction department is removed, and the removed part the bridged concrete slab of the secondary construction unit, said in a concrete floor slab with pretensioned precast PC version previously been laid end by successively inserting the PC tendon for post-tensioning, the PC tensions with the post-tensioning PC slab by applying a prestress concrete slab of the second construction part by tensioning the timber, said post-tensioning P By the slab and the pretensioning precast PC version was made to the integrated hung replacement PC slab, even at the boundary between the primary construction unit and the secondary construction unit, similar to the post-tensioning PC slab Prestress can be introduced, and the overlapping portion of the PC tension material at the joint portion between the primary construction portion and the secondary construction portion as shown in the conventional example is reduced, and the economy is high.

Moreover, it is not necessary to leave a permanent temporary steel girder after completion of replacement, and the used temporary support material can be removed and reused, which is highly economical.

  Moreover, by replacing the primary construction part which is half using the pretension precast PC plate, the number of use of the tension fixing metal fittings of the PC tension material to be used can be reduced, and the cost can be reduced.

In the elevated road replacement PC floor slab of the present invention , prestress is introduced in the entire width direction of the concrete floor slab for the elevated road. From the primary construction part and the secondary construction part that divide the width direction into two parts The primary construction portion is configured by supporting a number of pretensioned precast PC plates prestressed by a pretension method in the length direction of the steel girders, and is supported on the back surface of the pretensioned precast PC plate. A tension supporting pressure part protruded is provided, and the secondary construction part is configured with a post-tension PC post-stencil slab , and the pre-tension precast PC slab has an end face on the post-tension PC slab side wherein with PC tendon insertion hole communicating with the opening in the tension bearing capacity portion is formed, said post intensifier and The down PC slab, comprising the pre-tension precast PC version side end face and the opposite side of the end face in communication opening is not a PC tendon insertion hole, it is inserted in succession in the two PC tendon insertion hole post by tensioning the tension for PC tendon, together to introduce flop restless in the post-tensioning PC slab, it is prestressed in a connecting portion between the pre-tension precast PC version and the post-tensioning PC slab Therefore, it is possible to avoid the complete closure of the road and to perform construction in a short time at a lower cost.

It is a cross-sectional view which shows an example of implementation of the replacement PC floor slab for elevated roads concerning this invention. It is a bottom view which shows the pretension precast PC plate used for the primary transfer part of the same PC floor slab. The construction process of an example of this invention method is shown, (a)-(c) is explanatory drawing of a first-half process. The construction process of an example of this invention method is shown, (d)-(f) is explanatory drawing of a latter half process. (A)-(c) It is stress explanatory drawing by the prestress of the replacement PC floor slab for elevated roads concerning this invention. The construction process of a conventional method is shown, (a)-(c) is explanatory drawing of a first-half process. The construction process of a conventional method is shown, (d)-(f) is explanatory drawing of a latter half process. It is stress explanatory drawing by the prestress of the replacement PC floor slab for elevated roads by the conventional method. It is sectional drawing which shows an example of the connection state of the primary construction part by a conventional method, and a secondary construction part. It is sectional drawing which shows the other example of the connection state of the primary construction part by a conventional method, and a secondary construction part. It is sectional drawing which shows the further another example of the connection state of the primary construction part by a conventional method, and a secondary construction part. It is sectional drawing which shows the further another example of the connection state of the primary construction part by a conventional method, and a secondary construction part.

  Next, embodiments of the present invention will be described with reference to the drawings. FIG. 1 shows a replacement PC floor slab for an elevated road according to the present invention. This replacement PC floor slab 20 after replacement is divided into two parts of the existing concrete floor slab, and the primary construction part 20a, which is one section constructed in front of it, is constructed after the construction of the primary construction part 20a. It is comprised from the secondary construction part 20b which is other 1 division which was made, and the whole is supported by the some steel girder 21. As shown in FIG.

The primary construction part 20 a is configured by supporting a number of pretensioned precast PC plates 23 to which prestress is applied by the pretensioning system in the length direction of the steel beam 21.

  Although the pretension precast PC plate 23 is not shown in the drawing, the pretension PC tension member 24 is placed in a tensioned state with a desired tension in the mold and embedded in the mold so as to be embedded. After placing concrete and reaching a predetermined strength, the pretension PC tension member 24 is cut, and prestress is introduced into the precast concrete plate by the return force of the pretension PC tension member 24 at that time. is there.

  As shown in FIGS. 1 and 2, the pretension precast PC plate 23 is formed with a tension bearing part 25 protruding from the back surface, and communicates with the tension bearing part 25 from the end surface on the secondary construction part 20b side. An open PC tension material insertion hole 26 is formed, and a PC tension material end fixing tool 27 is embedded in the tension bearing section 25.

The secondary construction portion 20b is configured with a post tension PC floor slab 30 of the post tension system, and the post tension PC floor slab 30 communicates with the PC tension material insertion hole 26 of the adjacent pre tension precast PC plate 23. The PC tendon insertion holes 31 formed in the arrangement are opened through both ends toward the road width direction. A PC tendon end fixing tool 28 is embedded in the end surface of the PC tendon insertion hole 31 opposite to the pretension precast PC plate 23.

The post-tension PC slab 30 is formed by arranging precast reinforced concrete plates (RC plates) side by side to form a new concrete floor slab for the secondary construction section. Prestress may be applied, and a new concrete floor slab of a secondary construction section is constructed on a steel girder 21 on a cast-in-place RC plate, and this is prestressed by the PC tension member 33 for post tension. May be provided.

The pre-tension precast PC plate 23 and the post-tension PC floor slab 30 are fixed to the above-mentioned PC tension material end portion by attaching the PC tension material 33 for post tension inserted through the respective PC tension material insertion holes 26 and 31 continuously. The members 27 and 28 are integrated with each other by being tensioned, and prestress is applied to the end portion of the pretension precast PC plate 23 and the entire area of the post tension PC floor plate 30.

  Next, an example of a method for replacing a concrete floor slab for an elevated road according to the present invention will be described.

In this method, one side of the two sections with the center in the road width direction of the existing concrete floor slab 40 shown in FIGS. 3 and 4 as a boundary is a primary construction part 20a, and the other side is a secondary construction part 20b. In the state where the part is shared as a road, the primary construction part 20a is replaced, and after the replacement of the primary construction part 20a is completed, the secondary construction part 20b is replaced and double-attached in a state where this is shared as a road The floor slabs of the replacement parts 20a and 20b are integrated to complete the replacement work.
Next, the replacement process of this example will be described in order.
a. Installation of temporary support material on the lower surface of the existing concrete floor slab cutting part

  As shown in FIG. 3 (a), in a state where the existing concrete slab 40 to be replaced is shared, this is divided into two, and the primary construction section 20a of one section to be constructed first, The temporary support material 41 is installed on the lower surface of the boundary part with the secondary construction part 20b of one section constructed after the replacement of the primary construction part 20a.

  This temporary support member 41 is in a state where a portion protruding from the steel girder 21 closest to the cut portion of the floor slab is supported in a cantilevered manner when the boundary between the preceding and succeeding rearrangement portions described later is cut. The lower surface of the tip of the cantilever is supported from the lower side to receive a downward load from the road surface.

  In this example, the temporary support member 41 is constituted by a diagonal member attached between the floor slab lower surface and the steel beam 21. As the temporary support material, in addition to the diagonal material, the temporary steel girder shown in the above-described conventional example may be used.

  b. Cutting of existing concrete floor slab, removal of primary construction section of existing concrete floor slab

  As shown in FIG.3 (b), the guardrail 42 is installed in the edge upper surface of the secondary construction part 20b, and only the side of the secondary construction part 20b is shared as a road from this guardrail 42, and on the primary construction part 20a With the passage blocked, the boundary portion between the primary construction portion 20a and the secondary construction portion 20b of the existing concrete floor slab 40, in this example, the center portion in the road width direction of the existing concrete floor slab 40 is cut, and the existing concrete floor slab 40 The primary construction part 20a is removed.

This removal uses a crane as an example, lifts each section of the existing concrete slab 40 on the road traveling direction side by side, drops it to the ground, crushes it to the required size on the ground, and separates steel and concrete. Alternatively, it may be crushed in a state of being erected on the steel beam 21 to separate the concrete and the steel material.
c. Construction of pretension precast PC version in the primary construction department

As shown in FIG. 3 (c), a predetermined number of pretensioned precast PC plates 23 previously produced in a pre-concrete structure production yard on the steel beam 21 of the primary construction section 20a from which the existing concrete floor slab 40 has been removed. Are arranged in the length direction of the steel girder 21 to form a new concrete floor slab for the primary construction part, and the temporary construction material 41 supports the lower side edge of the secondary construction part 20b of the pretension precast PC plate 23. The pretension precast PC plate 23 of the primary construction part 20a is made strong enough to withstand common use as a road.
d. Removal of existing concrete slabs in the secondary construction department

The pre-tensioned precast PC plate 23 of the primary construction part 20a is made to have a sharable strength and the necessary surface is paved, and a temporary guard rail on the edge of the secondary construction part 20b previously installed on the edge. 42 is moved, the new pre-tension precast PC plate 23 of the primary construction part 20a is shared as a road, and the secondary construction part 20b is shared.

  In this state, as shown in FIG. 3 (d), the existing concrete slab 40 of the secondary construction part 20b is removed. The removal of the existing concrete slab 40 is performed in the same manner as in the case of the primary construction portion 20a described above.

e. Construction of a new concrete floor slab in the secondary construction department, introduction of prestress

After removal of the existing concrete slab 40 of the secondary construction unit 20b, as shown in FIG. 4 (e), the new secondary construction unit by erection by arranging a plurality of post-tensioning for the RC 43 on steel girder 21 Make a concrete slab. The RC plate 43 for post tension is installed by arranging precast RC plates formed in a predetermined shape in the production yard on the steel beam 21 in advance.

In addition, the construction of the new concrete floor slab of the secondary construction section may be formed by cast-in-place concrete by assembling a mold at the construction site without using the post-tension RC plate 43.

After the installation of the new concrete floor slab of the secondary construction section, the PC tension material insertion hole 31 constituted by the sheath embedded in the RC plate 43, and the PC tension material insertion hole of the pretension precast PC plate 23 communicated therewith 26, a post-tension PC tension member 33 is inserted, and one end of the post-tension PC tension member 33 is fixed to the PC tension member end fixing tool 27 on the back surface of the pretension precast PC plate 23, and the other end of the post-tension RC plate 43 is fixed. After passing through the PC tension material end fixing tool 28 on the end face and using a tensioning jack, the end part is fixed to the PC tension material end fixing tool 28 to introduce prestress.

This pre-stress is introduced between the PC tension member end fixing devices 27 and 28 , and the post-tension PC floor slab 30 is configured by introducing pre-stress in the road width direction of the post-tension RC plate 43. .
f. Removal of temporary guard rails and temporary support materials, start of sharing of all widths

  After constructing the new replacement PC floor slab 20 in this way, the temporary guard rail 42 and the temporary support material 41 are removed as shown in FIG. 4 (f), and the entire width of the replacement PC floor slab 20 is used as a road. Share and complete the replacement.

  The prestress of the connecting portion between the primary construction portion 20a and the secondary construction portion 20b in the replacement PC floor slab 20 configured as described above is the stress caused by the pretensioning PC tension member 24 of the pretension precast PC plate 23. As shown in the stress diagram shown in FIG. 5A, the stress gradually decreases at a certain length reaching the end and becomes 0 at the end, but the stress due to the post-tension PC tension member 33 is as shown in FIG. As shown in the stress diagram shown in b), a predetermined stress can be generated at the end of the precast PC plate 23, and these stresses are combined into the stress diagram shown in FIG. There is no portion where the stress is reduced in the connection portion between the construction portion 20a and the secondary construction portion 20b, and necessary stress is introduced over the entire width.

  In addition, when the primary construction part 20a is replaced, the use of the pretension type pretension precast PC plate 23 makes the PC tension material more expensive than the case of the post tension type precast PC plate or PC floor slab. The number of use of the PC tension member end fixing tool for fixing the toner can be reduced, and the cost can be reduced.

  In the above-described example, the temporary support member 41 is removed after completion of the replacement. However, when the temporary steel girder is used, the temporary support member 41 may be left as it is without being removed.

20 Replacement PC floor slab
20a Primary construction part 20b Secondary construction part 21 Steel girder 23 Pre-tension precast PC plate 24 Pre-tension PC tension member 25 Tension support part 26 PC tension member insertion hole 27 PC tension member end fixing tool
28 PC tension material end fixing tool
30 Post-tension PC floor slab 31 PC tension material insertion hole 33 Post-tension PC tension material 40 Existing concrete floor slab 41 Temporary support material 42 Temporary guard rail 43 RC plate for post tension

Claims (4)

Set up a reshuffling section in which the road width direction of the existing concrete floor slabs for multiple lanes supported by a plurality of bridge girders installed in the road length direction is divided into a primary construction section and a secondary construction section, and the secondary construction section The primary construction part adjacent to this is replaced while leaving it in a state where it can be shared as a road, the primary construction part after replacement is shared as a road, the secondary construction part is replaced, In the method of replacing concrete floor slabs for elevated roads that are integrated with the primary construction department and shared as a road,
The replacement of the primary construction part is performed by removing the existing concrete floor slab of the primary construction part and laying a pre-tensioned precast PC version with prestress applied in the width direction on the removed primary construction part. We construct a new concrete slab parts, after sharing on new concrete slab of the primary construction section as the road, the removal of the existing concrete slab of the secondary construction unit, the secondary construction to the portion to its removal A new concrete floor slab
Post by continuous to an end portion of said secondary construction side pretension precast PC version that is spanned above the end opposite to the said primary construction side of the new concrete floor slab of the secondary construction unit Insert the PC tension material for tension,
By tensioning the PC tension material, a post-stress PC floor slab in which necessary stress is introduced by applying pre-stress to the new concrete floor slab of the secondary construction part , and the post-tension PC floor slab A method for replacing a concrete floor slab for an elevated road, characterized in that a prestressed PC floor slab is introduced into a connecting portion with the pretension precast PC plate. The post-tension PC floor slab is a new concrete floor slab of a secondary construction part by laying a precast reinforced concrete board side by side on a steel girder from which the existing concrete floor slab of the secondary construction part has been removed. The method for replacing a concrete floor slab for an elevated road according to claim 1, which is configured by applying prestress by a PC tension material for post tension . The post-tension PC floor slab is a cast-in-place reinforced concrete slab, and a new concrete floor slab for the secondary construction section is constructed on the steel girder from which the existing concrete floor slab for the secondary construction section has been removed. The method for replacing a concrete floor slab for an elevated road according to claim 1, which is configured by applying prestress by a PC tendon material . Prestress is introduced in the entire width direction of the concrete floor slab for the elevated road, and is composed of a primary construction section and a secondary construction section that divide the width direction into two parts,
The primary construction part is configured by supporting a number of pretensioned precast PC plates prestressed by a pretensioning system in the length direction of the steel girder,
A tension bearing part protruding from the back surface of the pretension precast PC plate is provided,
The secondary construction part is configured with a post tension PC floor slab by a post tension system,
The pre-tension precast PC plate is formed with a PC tension material insertion hole that is open to the end surface of the post-tension PC floor slab side and the tension bearing part, and the post-tension PC floor plate includes PC tension material insertion hole opened to communicate with the end surface of the pretension precast PC plate side and the end surface on the opposite side,
By tensioning the two PC tendon insertion hole continuously for inserted through the post-tensioned PC tendon, together to introduce flop Restless in the post-tensioning PC slab, the pretension precast PC version and the post Replacement PC floor slabs for elevated roads, which are integrated with tension PC floor slabs.

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