JP5797181B2 - Quay repair method - Google Patents

Description

  The present invention relates to a quay repair method for repairing an existing quay that has subsided due to a disaster such as an earthquake.

  Quays are built on the shores and shores to shore fishing boats, cargo ships and ferries. However, the ground along the coastline subsided due to the Great East Japan Earthquake, and the quay also subsided with the ground. As a result, passengers and occupants could not be safely boarded / exited, and a situation in which cargo handling work could not be performed safely occurred. For this reason, in order to perform passenger boarding and a passenger's getting on and off, or cargo handling work safely, it is desired to repair existing quay walls quickly.

  For example, Patent Document 1 discloses a repair method for repairing a quay facility that has collapsed due to a disaster. In this repair method, the settlement of landfill sediment on the inland side that has flowed due to the earthquake is landfilled, and the landfill of the landfill is applied to the upper end of the tilted caisson, and multiple steel pipe piles are driven into the seabed. Repair the quay facility by welding to a steel pipe pile with a steel guide stand.

JP-A-8-277513

  However, when the quay is subsidized or collapsed due to a disaster, construction to change the construction location and build the quay, or work to temporarily repair the submerged quay's water area, This construction requires a long period of work and is very expensive. Moreover, in the repair method of patent document 1, since it is necessary to drive in several steel pipe piles to the seabed and to fix a steel guide stand to a steel pipe pile by welding, while a repair period becomes long, repair expense increases. It will be.

  The present invention has been made in view of the above points, and provides a quay repair method that can easily repair an existing quay that has subsided due to a disaster or the like in a short period of time and can reduce repair costs. For the purpose.

In order to solve the above problems, the invention relating to the quay repair method of claim 1 is a quay repair method for repairing an existing quay,
Install the formwork around the existing quay to be repaired,
Laying a first concrete debris layer on the upper surface of the ground surface of the existing quay in the formwork,
A first concrete layer is placed on the upper surface of the first concrete debris layer, and a reinforcing bar is planted and arranged in the first concrete layer.
After the first concrete layer is cured to an appropriate strength, a second concrete debris layer is laid on the upper surface of the first concrete layer so as to expose the upper end of the reinforcing bar,
The second concrete is placed on the upper surface of the second concrete debris layer so as to bury the insertion line protruding from the upper surface of the second concrete debris layer.
In order to solve the above-mentioned problem, the invention according to the quay repair method of claim 2 is characterized in that the formwork has a plurality of anchor bars composed of two upper and lower stages, and two upper and lower stages below the anchor bars. A plurality of tilt adjusting bolt holes configured and a stay mounting hole disposed between the left and right anchor bars are provided, and the stay mounting hole is also used as a drainage port.
In order to solve the above-mentioned problem, the invention relating to the quay repair method according to claim 3 is characterized in that the formwork fixing stay for fixing the formwork to the existing quay is provided with anchor bolts on the ground surface of the existing quay. It is fixed.
Moreover, in order to solve the said subject, the invention which concerns on the quay repair method of Claim 4 uses the rubble of the structure which the said 1st concrete debris layer and the said 2nd concrete debris layer generate | occur | produced by the disaster etc. It is characterized by.

  According to the present invention, it is possible to provide a quay repair method that can easily repair an existing quay that has been subsidized due to a disaster or the like in a short period of time and can reduce repair costs.

It is sectional drawing of the quay wall structure after the repair which concerns on one Embodiment of this invention. It is a perspective view of the mold shown in FIG. It is a perspective view of the stay for mold fixing shown in FIG. It is a perspective view which shows the whole view of the formwork attached to the existing quay to be repaired, and a formwork fixing stay. It is a front view of the connection metal fitting which connects adjacent formwork. It is the schematic of the quay repair when the existing quay sinks into the ground diagonally. It is the schematic of quay repair by the subsidence degree of the existing quay.

Hereinafter, an embodiment of the present invention will be described in detail with reference to FIGS.
1 is a cross-sectional view of a repaired quay structure according to an embodiment of the present invention, FIG. 2 is a perspective view of a mold 3 shown in FIG. 1, and FIG. 3 is a mold shown in FIG. FIG. 4 is a perspective view of the fixing stay 10, and FIG. 4 is a perspective view showing an entire view of the mold 3 attached to the existing quay 2 to be repaired and the mold fixing stay 10, and FIG. 5 is an adjacent mold. It is a front view of the connection metal fitting 16 which connects the frames 3. As shown in FIG. 1, the present embodiment relates to a quay repair method for repairing an existing quay 2 that has been subsidized due to a disaster or the like and newly constructing a quay 1.

  A quay 1 repaired by a quay repair method according to an embodiment of the present invention includes a mold 3 installed so as to surround the existing quay 2, and the ground of the existing quay 2 in order from the lower layer to the upper layer in the mold 3. A first concrete debris layer 4 laid on the surface (GL surface) 12, a first concrete layer 6 cast on the upper surface of the first concrete debris layer 4, and a first concrete layer 6 laid on the upper surface of the first concrete layer 6. 2 concrete debris layers 5 and a second concrete layer (surface concrete) 7 placed on the upper surface of the second concrete debris layer 5 are restored and built. And the quay 1 after the repair which concerns on embodiment of this invention remains as a structure as it is, without removing the formwork 3 used at the time of repair. Hereinafter, the quay repair method for repairing the existing quay 2 subsidized due to a disaster or the like will be described.

  First, the existing quay 2 to be repaired is provided with a hole (not shown) for embedding anchor bolts 17 for fixing the formwork fixing stay 10 on the ground surface 12. The first concrete debris layer 4 and the second concrete debris layer 5 use debris such as a structure generated by a disaster or the like. Specifically, the first concrete debris layer 4 uses concrete debris containing reinforcing bars, and the second concrete debris layer 5 uses concrete debris that does not contain reinforcing bars instead of crushed stone.

  As shown in FIG. 2, the mold 3 is a substantially rectangular steel plate, and uses stainless steel (SUS304 material). For example, the mold 3 uses a steel plate having a length of 8 m, a width of 2.438 m, and a plate thickness of 12 mm. The mold 3 is installed on the existing quay 2 by a mold fixing stay 10 and an inclination adjusting bolt 15 (adjustment bolt). An anchor bar 8 for preventing the mold frame 3 from bulging, an inclination adjusting bolt hole 9 provided at a lower portion of the anchor bar 8, and a mold frame fixing frame stay 10 are attached to the mold frame 3. A stay mounting hole 11 and a nut 19 for attaching the inclination adjusting bolt 15 are provided. The nut 19 is fixed to the position of the upper inclination adjustment bolt hole 9a and the lower inclination adjustment bolt hole 9b of the mold 3 facing the sea 20 by welding. Further, in the mold 3, the adjacent one of the mold 3 a and the other mold 3 b are connected via the connecting metal 16 (see FIG. 5). The connecting metal fitting 16 is attached to the mold 3 with bolts or the like. The design dimension of the mold 3 can be changed as appropriate.

  As shown in FIGS. 1 and 2, the anchor bar 8 is a substantially L-shaped deformed bar, and is composed of upper and lower two stages of a first concrete layer anchor bar 8 a and a second concrete layer anchor bar 8 b. . Nine anchor bars 8 are provided at predetermined intervals on the left and right from the center in the longitudinal direction of the mold 3, and are fixed by welding so as to be vertically two-tiered in the lateral direction of the mold 3. For example, nine anchor bars 8a for the first concrete layer and anchor bars 8b for the second concrete layer are provided at intervals of 700 mm to the left and right from the center in the longitudinal direction. The first concrete layer anchor bar 8a is welded at a position of 100 mm downward from the upper end, and the first concrete layer anchor bar 8b is welded at a position of 600 mm further downward from the welding position of the second concrete layer anchor bar 8b. The anchor bar 8 uses a substantially L-shaped bar member, but a substantially J-shaped deformed bar can also be used. Moreover, the installation position of the anchor muscle 8 can be changed as appropriate.

  As shown in FIG. 2, the inclination adjustment bolt hole 9 is provided below the installation position of the anchor bar 8, and includes an upper inclination adjustment bolt hole 9 a and a lower inclination adjustment bolt hole 9 b. For example, the lower inclination adjusting bolt hole 9b is provided at a position 150 mm upward from the lower end of the mold 3, and the upper inclination adjusting bolt hole 9a is provided at a position 500 mm upward from the center of the lower inclination adjusting bolt hole 9b. ing. The installation position of the inclination adjusting bolt hole 9 can be changed as appropriate.

  The stay mounting holes 11 are provided at five positions at regular intervals from the approximate center in the longitudinal direction of the mold 3 and at five positions at regular intervals from the center in the short direction of the mold 3. Yes. For example, the stay mounting holes 11 are provided at five locations at intervals of about 1750 mm from the center in the longitudinal direction of the mold 3 and at five locations at intervals of 400 mm from the center in the short direction of the mold 3. The stay mounting hole 11 is provided so as to be positioned between the left and right anchor bars 8, 8. The stay mounting hole 11 can also function as a drainage port for seawater that has penetrated into the ground surface 12 of the existing quay wall 2 to enter and exit, in addition to fixing the mold fixing stay 10.

  As shown in FIGS. 1 and 3, the mold fixing stay 10 is formed in a substantially triangular shape from two sides that form a right angle by can manufacturing and a brace that directly connects the ends of the two sides. A cross section of two sides forming a right angle is formed in a substantially L shape. A plurality of bolt holes 13 are provided on one side (the vertical side in FIG. 3) of the mold fixing stay 10, and on the other side (the horizontal side in FIG. 3) of the mold fixing stay 10, A plurality of anchor bolt holes 14 are provided. The mold fixing stay 10 is screwed into the mold 3 by inserting the bolt 21 into the bolt hole 13, and is fixed to the ground surface 12 of the existing quay wall 3 by inserting the anchor bolt 17 into the anchor bolt hole 14. Has been.

Next, the repairing method for the existing quay 2 that has subsided due to a disaster or the like will be described.
As shown in FIGS. 1, 4 and 5, first, the ground surface 12 of the existing quay wall 2 to be repaired is leveled substantially flat, and a predetermined number of molds 3 are connected using the connecting metal fittings 16 in accordance with the ground surface 12 that has been leveled. (3a, 3b) are connected. Then, the connected formwork 3 is arranged on the existing quay 2 and installed on the existing quay 2 by the inclination adjusting bolt 15. At this time, the mold fixing stay 10 is attached to the mold 3 in advance, and this mold fixing stay 10 is attached to the ground surface 12 of the existing quay wall 2 by the anchor bolt 17 inserted into the anchor bolt hole 14. Fix it. In addition, when the mold fixing stay 10 is attached to the mold 3, some bolt holes 13 of the mold fixing stay 10 function as drain holes without being fastened by the bolts 21. Thereby, the seawater which permeated the ground surface 12 of the existing quay 2 can be made to go in and out.

  Next, the first concrete debris layer 4 including reinforcing bars is laid on the upper surface of the ground surface 12 of the existing quay wall 2 surrounded by the formwork 3. At this time, the 1st concrete debris layer 4 containing a reinforcing bar utilizes debris, such as a collapsed structure. Thereby, the concrete debris generated by a disaster can be processed effectively.

  Next, after laying the first concrete debris layer 4, the first concrete layer 6 is placed on the upper surface of the first concrete debris layer 4. At this time, the first concrete layer 6 is placed so as to embed the first concrete anchor bars 8 a attached to the mold 3. Further, before the first concrete layer 6 is hardened, a predetermined number of reinforcing bars 18 are planted and arranged in the first concrete layer 6. This incision 18 is installed to the height position where the 2nd concrete layer 7 is laid.

  Next, after the first concrete layer 6 is cured to an appropriate strength, the second concrete debris layer 5 is laid on the upper surface of the first concrete layer 6 so as to expose the upper end of the reinforcing bar 18. At this time, the 2nd concrete debris layer 5 lays concrete debris instead of the crushed stone used for a concrete structure. This concrete debris uses a concrete debris that does not contain reinforcing bars. Then, after laying the second concrete debris layer 5, the second concrete layer 7 is placed on the upper surface of the second concrete debris layer 5. At this time, the second concrete layer 7 is placed so as to embed the second concrete anchor bars 8 b attached to the mold 3, and is placed so that the insertion bars 18 do not protrude from the surface of the second concrete 7. To do.

  In this way, the formwork 3 is installed so as to surround the existing quay 2 that has subsided due to a disaster, and the first concrete debris layer 4 is laid in the formwork 3, and the first concrete debris layer 4 The first concrete layer 6 is placed on the upper surface, the second concrete debris layer 5 is laid on the upper surface of the first concrete layer 6, and finally the second concrete 7 is disposed on the upper surface of the second concrete debris layer 5. Therefore, the quay repair method according to the present invention makes it easy to repair the existing quay 2 that has subsided due to a disaster or the like, and can shorten the construction period. Furthermore, the first concrete debris layer 4 and the second concrete debris layer 5 can use concrete debris such as a structure collapsed due to a disaster, and the formwork 3 after repair is left without being removed. , Cost can be reduced, and can be disposed of effectively.

  Next, FIGS. 6A and 6B show schematic views of the quay repair method when the existing quay 2 sinks into the ground. As shown in FIGS. 6A and 6B, when the existing quay 2 is inclined and the ground sinks, the liner 22 is provided between the existing quay 2 and the formwork fixing stay 10. The mold 3 can be fixed stably. Further, when the mold 3 is installed on the existing quay 2, the mold 3 can be appropriately installed at a predetermined angle by adjusting the screwing length of the inclination adjusting bolt 15. As described above, even when the existing quay 2 is inclined to the land side or the sea side and the ground is sunk, by adjusting the screwing length of the inclination adjusting bolt 15, the formwork 3 can be placed at an appropriate position on the existing quay 2. Can be installed.

  FIGS. 7A and 7B are schematic views showing a quay repair method according to the degree of ground subsidence of the existing quay 2. Fig. 7 (a) illustrates the quay repair method when the existing quay 2 has subsided over 1m, and Fig. 7 (b) shows the quay repair when the existing quay 2 subsidizes below 1m. The construction method is illustrated. As shown in FIG. 7 (a), when the existing quay 2 is subsidized for more than 1 m, the mold 3 is placed on the upper side of the existing quay 2 using the long side of the mold fixing stay 10. Install. In addition, as shown in FIG. 7B, when the existing quay 2 subsidized to the ground is less than 1 m, the mold 3 is attached to the lower side surface of the existing quay 2 using the short side of the mold fixing stay 10. Install in. In this case, by forming one side of the mold fixing stay 10 as a long side and forming the other side of the mold fixing stay 10 as a short side, each side having a different length of the mold fixing stay 10 is formed. Can be selected and attached to the formwork 3 to appropriately deal with the degree of ground subsidence of the existing quay 2.

  DESCRIPTION OF SYMBOLS 1 ... Quay, 2 ... Existing quay, 3 ... Formwork, 4 ... 1st concrete debris layer, 5 ... 2nd concrete debris layer, 6 ... 1st concrete layer, 7 ... 2nd concrete layer, 12 ... Ground surface, 18 ... Incisor

Claims (4)

In quay repair method to repair existing quay,
Install the formwork around the existing quay to be repaired,
Laying a first concrete debris layer on the upper surface of the ground surface of the existing quay in the formwork,
A first concrete layer is placed on the upper surface of the first concrete debris layer, and a reinforcing bar is planted and arranged in the first concrete layer.
After the first concrete layer is cured to an appropriate strength, a second concrete debris layer is laid on the upper surface of the first concrete layer so as to expose the upper end of the reinforcing bar,
A quay repair method comprising placing second concrete on an upper surface of the second concrete debris layer so as to embed the reinforcing bar protruding from the upper surface of the second concrete debris layer.   The mold is disposed between a plurality of anchor bars composed of two upper and lower stages, a plurality of tilt adjusting bolt holes composed of two upper and lower stages below the anchor bars, and the left and right anchor bars. 2. The quay repair method according to claim 1, wherein the stay mounting hole is also used as a drain outlet. 2. The quay repair method according to claim 1, wherein a mold fixing stay for fixing the mold to the existing quay is fixed to the ground surface of the existing quay by an anchor bolt.   2. The quay repair method according to claim 1, wherein the first concrete debris layer and the second concrete debris layer use debris of a structure generated by a disaster or the like.

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