JP6923463B2 - How to install precast concrete gutters and precast concrete gutters - Google Patents

Description

The present invention relates to a method of attaching a precast concrete gutter and a precast concrete gutter.

Patent Document 1 discloses a structure including a road surface of a roadway, a wall balustrade cast on the roadside of the road surface, and a gutter cast on the side opposite to the road surface of the wall balustrade. The wall balustrade located between the road surface and the gutter is provided with a water passage hole leading from the road surface to the gutter, and rainwater or the like that has fallen on the road surface is drained to the gutter through the water passage hole of the wall balustrade.

JP-A-2017-2565

By the way, in a bridge, it is conceivable to form a gutter with precast concrete to improve the ease of construction. In this case, for example, a gutter formed of precast concrete is arranged on the opposite side of the road surface of the wall balustrade to be placed on the bridge, and an anchor bolt is installed so that the anchor bolt passes through the boundary between the wall balustrade and the gutter. NS. However, in such a configuration, anchor bolts that may be corroded by rainwater or the like pass through the boundary between the wall rail and the gutter, which may be a weak point in terms of watertightness against rainwater, etc., which improves durability. Is desired.

Therefore, an object of the present invention is to provide a method for attaching a precast concrete gutter and a precast concrete gutter that can improve durability in addition to improving the ease of construction due to being formed of precast concrete. ..

The present invention is a precast concrete side groove attached to the side opposite to the road surface of the wall balustrade to be cast on the bridge, and is formed of precast concrete in the bridge axial direction in the portion where the concrete of the wall balustrade is cast. A reinforcing bar support portion that supports the horizontal reinforcing bar extending along the line and a side groove that is formed of precast concrete and is integrated with the reinforcing bar support portion on the opposite side of the road surface of the reinforcing bar support portion and extends in the bridge axis direction. It is a precast concrete side groove provided with a side groove.

According to this configuration, in the precast concrete side groove installed on the side opposite to the road surface of the wall balustrade to be cast on the bridge, the part where the concrete of the wall balustrade is cast by the reinforcing bar support portion formed of the precast concrete. Horizontal reinforcing bars extending in the direction of the bridge axis are supported, and the side grooves formed of precast concrete extend in the direction of the bridge axis while being integrated with the reinforcing bars on the opposite side of the road surface of the reinforcing bars. Since the side groove is formed, the side groove is supported by the horizontal reinforcing bar which is highly watertight against rainwater because it extends in the concrete of the wall balustrade, and is formed by the precast concrete. In addition to improving the ease of construction, the durability can be improved.

In this case, the reinforcing bar support portion may support the horizontal reinforcing bar extending along the bridge axis direction on the road surface side of the vertical reinforcing bar extending in the vertical direction in the part where the concrete of the wall balustrade is placed. Suitable.

According to this configuration, the reinforcing bar support portion supports the horizontal reinforcing bar extending along the bridge axis direction on the road surface side of the vertical reinforcing bar extending in the vertical direction in the part where the concrete is placed in the wall balustrade. Therefore, for example, even if the concrete of the wall balustrade deteriorates, the horizontal reinforcing bar is hung on the vertical reinforcing bar on the road surface side, so that the side opposite to the road surface of the side groove integrated with the reinforcing bar supporting portion that supports the horizontal reinforcing bar. Separation to the concrete is prevented, and the durability can be further improved.

Further, it is preferable that a protruding portion is further provided in the portion where the concrete of the wall balustrade is placed above the member integrated with the bridge, and the gutter portion is integrated with the protruding portion.

According to this configuration, the gutter portion is integrated with the protrusion protruding into the portion where the concrete of the wall balustrade is placed above the member integrated with the bridge, so that the concrete of the wall balustrade is deteriorated, for example. Even if this is the case, by hanging the protrusion on the member integrated with the bridge, the side groove integrated with the protrusion can be prevented from being separated downward, and the durability can be further improved. ..

In this case, it is preferable that the protrusion is a reinforcing bar support.

According to this configuration, since the reinforcing bar support portion also serves as a protrusion, the precast concrete gutter can be made a simple configuration.

On the other hand, the present invention is a method of attaching a precast concrete side groove to attach a precast concrete side groove on the side opposite to the road surface of the wall balustrade to be cast on a bridge. It is formed of precast concrete and a reinforcing bar support part that supports the horizontal reinforcing bar extending along the bridge axis direction in the part, and is integrated with the reinforcing bar support part on the opposite side of the road surface of the reinforcing bar support part in the bridge axis direction. A side groove arranging step of arranging the precast concrete side groove so that the reinforcing bar support portion of the precast concrete side groove having the side groove portion forming the side groove extending to the wall is located in the part where the concrete of the wall balustrade is placed. Precast concrete placed in the side groove placement process While supporting the horizontal reinforcing bars in the reinforcing bars of the side grooves, the horizontal reinforcing bars are arranged in the part where the concrete is placed in the wall balustrade, and the wall. It is a method of attaching a precast concrete side groove including a placing step of placing concrete in a portion where concrete is placed in a balustrade.

In this case, in the horizontal reinforcing bar arrangement step, the horizontal reinforcing bar is supported on the reinforcing bar support portion, and the horizontal reinforcing bar is placed on the side of the road surface of the vertical reinforcing bar extending in the vertical direction in the part where the concrete of the wall balustrade is placed. It is preferable to arrange the horizontal reinforcing bars so as to extend along the bridge axis direction.

Further, in the gutter arranging process, the precast concrete gutter may be arranged so that the protrusion of the precast concrete gutter protruding into the part where the concrete of the wall balustrade is placed is located above the member integrated with the bridge. Suitable.

According to the method of attaching the precast concrete gutter and the precast concrete gutter of the present invention, it is possible to improve the durability in addition to the improvement of the ease of construction due to the formation of the precast concrete.

It is a perspective view which shows the precast concrete side groove which concerns on embodiment. It is sectional drawing in the cross section orthogonal to the bridge axis which shows the part where the concrete of the wall balustrade to be placed on the bridge which concerns on embodiment is placed. It is sectional drawing which shows the state which the support metal is installed below the part where concrete is placed in the wall balustrade of FIG. FIG. 3 is a cross-sectional view showing a state in which a gutter arranging step is performed on a portion of the wall railing column of FIG. 3 where concrete is cast. FIG. 5 is a cross-sectional view showing a state in which a horizontal reinforcing bar arrangement process is performed on a portion of the wall railing column of FIG. 4 where concrete is placed. It is a perspective view which shows the outline of the arrangement of the horizontal rebar and the vertical rebar arranged by the horizontal rebar arrangement process. FIG. 5 is a cross-sectional view showing a state in which a casting process is performed on a portion of the wall railing column of FIG. 5 where concrete is cast. It is a figure which shows the state which the casting process of FIG. 7 is completed.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. The precast concrete gutter 1 of the present embodiment shown in FIG. 1 is attached to the side opposite to the road surface 10r of the wall balustrade cast on the bridge. As shown in FIG. 1, the precast concrete gutter 1 of the present embodiment includes a reinforcing bar support portion 2, a gutter portion 3, and a balustrade portion 4.

As will be described later, the reinforcing bar support portion 2 integrated with the outer wall 3w on the side of the road surface 10r of the gutter portion 3 is formed of precast concrete, and the inside of the wall balustrade casting portion 11 on which the concrete of the wall balustrade is placed is placed. Supports the horizontal reinforcing bar extending along the bridge axis direction D. The reinforcing bar support portion 2 supports the horizontal reinforcing bar in the support hole portion 2h which is a through hole penetrating the reinforcing bar support portion 2 along the bridge axial direction D. As will be described later, the reinforcing bar support portion 2 extends along the bridge axis direction D on the side of the road surface 10r of the vertical reinforcing bar extending in the vertical direction in the wall balustrade casting portion 11 where the concrete of the wall balustrade is placed. Support existing horizontal rebar.

The precast concrete gutter 1 of the present embodiment includes a protrusion protruding into the wall balustrade casting portion 11 where concrete for the wall balustrade is cast above the gutter receiving portion described later, which is a member integrated with the bridge. , The gutter portion 3 is integrated with the protrusion portion. In the present embodiment, the protrusion is the reinforcing bar support portion 2, and the reinforcing bar support portion 2 also serves as the protrusion. The reinforcing bar support portion 2 projects into the wall balustrade portion 11 from the position of the upper half of the outer wall 3w on the side of the road surface 10r of the gutter portion 3.

The precast concrete gutter 1 may be provided with a separate reinforcing bar support portion 2 and the above-mentioned protrusion portion. Further, if the reinforcing bar support portion 2 can support the horizontal reinforcing bar extending along the bridge axis direction D in the wall balustrade casting portion 11 where the concrete of the wall balustrade is placed, which is the reinforcing bar support portion 2? It may have such a shape. For example, the reinforcing bar support portion 2 may support the horizontal reinforcing bar in the groove portion opened downward.

The gutter portion 3 is formed of precast concrete, and forms a gutter extending in the bridge axial direction D while being integrated with the reinforcing bar supporting portion 2 on the side opposite to the road surface 10r of the reinforcing bar supporting portion 2. A plurality of precast concrete gutters 1 attached to the side opposite to the road surface 10r of the wall balustrade to be cast on the bridge are connected to each other in the bridge axial direction D, and gutters extending in the bridge axial direction D by their side grooves 3 To form. The shape of the gutter formed by the gutter 3 may be any shape, and for example, the cross section of the gutter may have a semicircular shape or a polygonal shape other than a quadrangle.

At the upper part of the outer wall 3w on the side of the road surface 10r of the gutter portion 3, a hole (not shown) for fixing a deformed reinforcing bar, which will be described later, protruding into the wall balustrade portion 11 is provided. A balustrade portion 4 formed of precast concrete extends above the outer wall 3W on the side opposite to the road surface 10r side of the gutter portion 3. The balustrade portion 4 is not an essential configuration and may be omitted. When the balustrade portion 4 is omitted, the outer wall 3w on the side of the road surface 10r of the gutter portion 3 and the outer wall 3W on the side opposite to the road surface 10r side of the gutter portion 3 may have the same height.

Precast concrete The precast concrete that forms the reinforcing bar support part 2, the side groove part 3 and the balustrade part 4 of the side groove 1 is, for example, the material and manufacturing method in the "Design and Construction Guideline (Draft) of Ultra-High Strength Fiber Reinforced Concrete" published by the Civil Engineering Society. Is specified, and ultra-high-strength fiber-reinforced concrete having high durability against deterioration effects such as salt damage can be applied. Reinforcing bars are appropriately arranged in each part of the precast concrete gutter 1. The precast concrete side groove 1 is reinforced with, for example, a carbon fiber composite material cable that is not affected by salt damage, and brittle fracture is prevented when the concrete is finally loaded.

Hereinafter, a method of attaching the precast concrete gutter of the present embodiment will be described. As shown in FIG. 2, in the method of attaching the precast concrete gutter of the present embodiment, the above-mentioned precast concrete gutter 1 is formed on the side opposite to the road surface 10r of the wall balustrade portion 11 of the wall balustrade to be cast on the bridge 10. It is attached. The wall balustrade site 11 on which the concrete of the wall balustrade is placed includes a vertical reinforcing bar 12 extending in the vertical direction in the wall balustrade site 11 and a bridge axis direction in the wall balustrade site 11. The horizontal reinforcing bars 12c extending to the above are arranged.

The bridge 10 is located below the wall balustrade portion 11 and below the reinforcing bar support portion 2 which is a protrusion of the precast concrete gutter 1 while being integrated with the bridge 10, and is adjacent to the lower portion of the outer wall 3w of the gutter portion 3. A gutter receiving portion 13 is provided. The gutter receiving portion 13 has an anchor hole portion 13h on the lower surface of the gutter receiving portion 13. Further, the gutter receiving portion 13 has a tapered surface 13t inclined toward the road surface 10r on a surface adjacent to the lower portion of the outer wall 3w of the gutter portion 3 of the gutter receiving portion 13. The lower portion of the outer wall 3w on the side of the road surface 10r of the gutter portion 3 adjacent to the gutter receiving portion 13 may be inclined to the side opposite to the road surface 10r. Reinforcing bars are appropriately arranged in the gutter receiving portion 13. A fixing tool 14 for applying prestress projects from the side of the road surface 10r at the wall balustrade portion 11.

As shown in FIG. 3, a support 15 which is a temporary material for scaffolding for work is installed below the wall balustrade casting site 11 where concrete for the wall balustrade is placed. For example, channel steel is applied to the support metal fitting 15. A reaction force base 16 which is a temporary material is inserted between the support metal piece 15 and the lower surface of the bridge 10 and the gutter receiving portion 13, and the anchor 17 is inserted into the anchor hole portion 13h of the gutter receiving portion 13 to form a wall balustrade. The support 15 is fixed below the driving site 11. A support base 18, which is a temporary material for supporting the precast concrete gutter 1, is installed on the side of the wall balustrade portion 11 opposite to the road surface 10r.

As shown in FIG. 4, the gutter arranging step is performed. In the gutter arranging step, the precast concrete gutter 1 is arranged on the support base 18 so that the reinforcing bar support portion 2 of the precast concrete gutter 1 is located in the wall balustrade site 11 where the concrete of the wall balustrade is placed. Will be done. In the gutter arranging step, the gutter support portion 2 is a member in which the reinforcing bar support portion 2 which is the protrusion of the precast concrete side groove 1 projecting into the wall balustrade casting portion 11 where the concrete of the wall balustrade is placed is integrated with the bridge 10. The precast concrete gutter 1 is arranged so as to be located above the portion 13. The reinforcing bar support portion 2 which is a protrusion may be located above the gutter receiving portion 13 and does not need to be in contact with the reinforcing bar support portion 2.

The lower part of the outer wall 3w of the gutter portion 3 of the precast concrete gutter 1 and the tapered surface 13t of the gutter receiving portion 13 are adjacent to each other with a gap that becomes narrower from the upper end to the lower end.

A deformed reinforcing bar 19 projects from the upper part of the outer wall 3w of the gutter portion 3 of the precast concrete gutter 1 into the wall balustrade casting portion 11 where the concrete of the wall balustrade is cast. The deformed reinforcing bar 19 passes through the road surface side of the horizontal reinforcing bar 12c extending in the bridge axis direction D in the wall balustrade portion 11 while being curved upward, and extends upward. For example, a stainless steel reinforcing bar can be applied to the deformed reinforcing bar 19. The deformed reinforcing bar 19 and the horizontal reinforcing bar 12c are bound to each other by a wire rod or the like. The deformed reinforcing bar 19 may be omitted.

As shown in FIGS. 5 and 6, the horizontal reinforcing bar arrangement step is performed. In the horizontal reinforcing bar arranging process, the horizontal reinforcing bar 20 is supported in the support hole 2h of the reinforcing bar support portion 2 of the precast concrete side groove 1 arranged in the gutter arranging step, and the concrete of the wall balustrade is placed. A horizontal reinforcing bar 20 is arranged in the portion 11. In the horizontal reinforcing bar arranging step, the road surface 10r of the vertical reinforcing bar 12 extends in the vertical direction in the wall balustrade casting portion 11 where the concrete of the wall balustrade is placed while the horizontal reinforcing bar 20 is supported by the reinforcing bar support portion 2. The horizontal reinforcing bars 20 are arranged so that the horizontal reinforcing bars 20 extend along the bridge axis direction D on the side of the bridge. As the horizontal reinforcing bar 20, for example, a reinforcing bar coated with an epoxy resin can be applied. The horizontal reinforcing bar 20 may be a normal reinforcing bar. Further, in the examples of FIGS. 5 and 6, the vertical reinforcing bar 12 is a reinforcing bar that bends at the upper part of the wall balustrade portion 11, but the vertical reinforcing bar 12 does not bend and passes through the wall balustrade portion 11 in the vertical direction. It may be a reinforcing bar extending linearly in the vertical direction such as. The horizontal reinforcing bar 20 and the vertical reinforcing bar 12 are bound to each other by a wire rod or the like.

As shown in FIG. 7, the casting process is performed. In the placing step, concrete is placed at the wall balustrade casting site 11 where the concrete of the wall balustrade is placed. In the casting step, the non-shrinkable mortar 21 which is a cushioning material is injected between the lower part of the outer wall 3w of the gutter portion 3 of the precast concrete gutter 1 and the tapered surface 13t of the gutter receiving portion 13. The interstitial concrete 22 is placed below the outer wall 3w and above the tapered surface 13t. As shown in FIG. 8, concrete 23 is further cast on the wall balustrade casting portion 11, and the pavement portion 24 is formed on the road surface 10r. The wall balustrade site 11 is provided with a water passage hole (not shown) leading from the road surface 10r to the precast concrete gutter 1.

As described above, in the configuration in which the anchor bolts are installed so that the anchor bolts pass through the boundary between the wall balustrade and the gutter formed of precast concrete, the space between the wall balustrade and the gutter is watertight. Becomes a weak point. Due to the effects of rainwater, traffic vibration, strong wind, etc. that intermittently flow into the waterway between the wall balustrade and the gutter, there is a concern that the padded part may peel off. Anchor bolts may corrode after the padding is peeled off.

In addition, because the wall balustrade and the gutter formed from precast concrete are fixed with anchor bolts, the structural dimensions of the members that support the gutter on the side of the bridge are small, and reinforcing bars cannot be placed, so contact with the gutter, etc. There is a possibility that cracks and chips will occur due to the impact of. In addition, a cushioning material will be installed between the bridge body and the gutter, but the cushioning material that has deteriorated and becomes brittle in the future may peel off due to traffic vibration.

In addition, for gutters formed of one precast concrete, there are multiple anchor bolt installation holes for the gutters, and if there is an installation error in the connection fittings embedded in the bridge body in advance, anchor bolts that cannot be fixed to the connection fittings will appear. There is a fear. Further, since there is no play between the anchor bolt and the gutter formed by the precast concrete, the position of the gutter is determined by the installation accuracy of the anchor bolt, and the position of the gutter and the gradient cannot be adjusted. Since the accuracy of the deck height is -45 mm to + 5 mm and the span length is 130 m, there is a possibility that an error of about 0.1% may occur in the drainage gradient even if the bridge body is constructed well. Since the planned longitudinal gradient of the deck is 0.1% at the minimum, there is a possibility that the drainage gradient cannot be secured due to the installation error of the gutter.

In the location overhanging construction, the position of the new connection fitting can be determined based on the position of the connection fitting that has already been installed, so that the connection fitting can be installed relatively accurately in the direction of the bridge axis. However, in the precast segment method, since the segments are manufactured one by one using a steel formwork that has been processed so that the connection fittings can be placed in advance, it is not possible to adjust the position with the already installed connection hardware. , Installation error accumulates. Therefore, there is a possibility that the drainage gradient error increases and the position of the anchor bolt installation hole of the gutter and the fixing metal fitting is displaced.

In addition, the segments manufactured so that the deck is horizontal are erected while being rotated in order to make the deck slope. Therefore, the overhanging floor slab that comes into contact with the gutters formed by precast concrete does not become vertical. Along with this, the connection fittings embedded in the bridge body side are not horizontal, so it is extremely difficult to connect with the anchor bolts inserted from the gutters.

On the other hand, in the present embodiment, in the precast concrete side groove 1 attached to the side opposite to the road surface 10r of the wall balustrade to be cast on the bridge 10, the concrete of the wall balustrade is cast by the reinforcing bar support portion 2 formed of the precast concrete. The horizontal reinforcing bar 20 extending along the bridge axis direction D is supported in the wall balustrade casting portion 11 to be provided, and the side groove portion 3 formed of precast concrete is opposite to the road surface 10r of the reinforcing bar supporting portion 2. Since a side groove extending in the bridge axial direction D is formed while being integrated with the reinforcing bar support portion 2 on the side, the side groove portion 3 extends in the concrete of the wall balustrade, so that the lateral groove portion 3 is highly watertight against rainwater or the like. It will be supported by the reinforcing bar 20, and in addition to improving the ease of construction due to being formed of precast concrete, it is possible to improve the durability.

Further, in the present embodiment, the bridge axis direction D is on the side of the road surface 10r of the vertical reinforcing bar 12 extending in the vertical direction in the wall balustrade casting portion 11 where the concrete of the wall balustrade is cast by the reinforcing bar support portion 2. Since the horizontal reinforcing bars 20 extending along the above are supported, for example, even if the concrete of the wall balustrade deteriorates, the horizontal reinforcing bars 20 are hung on the vertical reinforcing bars 12 on the road surface side, so that the reinforcing bars supporting the horizontal reinforcing bars 20 are supported. Separation of the side groove portion 3 integrated with the support portion 2 to the side opposite to the road surface 10r is prevented, and the durability can be further improved.

That is, in the present embodiment, since the fixing structure by the horizontal reinforcing bars 20 and the vertical reinforcing bars 12 is arranged outside the water passage surface, there is no joint portion on the water passage surface, and the watertightness of the precast concrete gutter 1 can be ensured, and at the same time, the fixing structure. Does not come into direct contact with water, so that the horizontal reinforcing bars 20 and the vertical reinforcing bars 12, which are fixing members, do not corrode and the durability is improved.

Further, in the present embodiment, the gutter portion 3 is a reinforcing bar support portion 2 which is a protruding portion protruding into a portion where concrete is placed in the wall balustrade above the gutter receiving portion 13 which is a member integrated with the bridge 10. Therefore, for example, even if the concrete of the wall balustrade deteriorates, the reinforcing bar supporting portion 2 is hooked on the gutter receiving portion 13 which is a member integrated with the bridge 10, so that the reinforcing bar supporting portion 2 is integrated with the reinforcing bar supporting portion 2. The downward separation of the formed gutter portion 3 is prevented, and the durability can be further improved.

Further, in the present embodiment, since the reinforcing bar support portion 2 also serves as a protruding portion protruding into the wall balustrade casting portion 11 where the concrete of the wall balustrade is placed above the gutter receiving portion 13, the precast concrete side groove 1 is provided. It can be a simple configuration. As a result, it becomes easy to arrange the precast concrete gutter 1 so that the reinforcing bar support portion 2 is located in the wall balustrade casting portion 11 while avoiding the fixing tool 14 and the like. Further, in the present embodiment, the gutter receiving portion 13, the interstitial concrete 22, and the wall balustrade are integrated as an RC structure to prevent separation due to cracking or chipping of the concrete. Further, in the present embodiment, the tapered surface 13t of the gutter receiving portion 13 prevents the non-shrinkable mortar 21, which is a cushioning material, from peeling off.

Further, in the present embodiment, since the restriction on the fixing position between the bridge 10 and the precast concrete gutter 1 is significantly reduced, the bridge 10 and the precast concrete gutter 1 can be surely fixed. Since the restrictions on the fixing position between the bridge 10 and the precast concrete gutter 1 are greatly reduced, the position and slope can be adjusted at the time of installation, and the drainage slope can be secured more accurately. Further, since the restriction on the fixing position between the bridge 10 and the precast concrete gutter 1 is greatly reduced, the precast concrete gutter 1 can be easily installed and the process can be secured.

Although the embodiments of the present invention have been described above, the present invention is not limited to the above embodiments and is implemented in various forms.

1 ... Precast concrete side groove, 2 ... Reinforcing bar support part, 2h ... Support hole part, 3 ... Side groove part, 3w, 3W ... Outer wall, 4 ... Balustrade part, 10 ... Bridge, 10r ... Road surface, 11 ... Wall balustrade casting site, 12 ... Vertical reinforcing bar, 12c ... Horizontal reinforcing bar, 13 ... Side groove receiving part, 13h ... Anchor hole part, 13t ... Tapered surface, 14 ... Fixing tool, 15 ... Support metal fitting, 16 ... Reaction force stand, 17 ... Anchor, 18 ... Support Platform, 19 ... deformed reinforcing bars, 20 ... horizontal reinforcing bars, 21 ... non-shrinkable mortar, 22 ... interstitial concrete, 23 ... concrete, 24 ... paving part, D ... bridge axial direction.

Claims (7)

It is a precast concrete gutter that is installed on the opposite side of the road surface of the wall balustrade that is driven into the bridge.
A reinforcing bar support portion formed of precast concrete and supporting a horizontal reinforcing bar extending along the bridge axis direction in the portion where the concrete of the wall balustrade is placed, and a reinforcing bar support portion.
A precast concrete gutter formed of precast concrete and having a gutter portion formed of a gutter extending in the direction of the bridge axis while being integrated with the reinforcing bar support portion on the side opposite to the road surface of the reinforcing bar support portion. The reinforcing bar supporting portion supports the horizontal reinforcing bar extending along the bridge axis direction on the side of the road surface of the vertical reinforcing bar extending in the vertical direction in the portion of the wall balustrade where the concrete is placed. The precast concrete side groove according to claim 1. 1. The precast concrete gutter according to 2. The precast concrete gutter according to claim 3, wherein the protrusion is the reinforcing bar support portion. It is a method of attaching a precast concrete gutter that attaches a precast concrete gutter on the side opposite to the road surface of the wall balustrade that is driven into the bridge.
A reinforcing bar support portion formed of precast concrete and supporting a horizontal reinforcing bar extending along the bridge axis direction in a portion where concrete is placed in the wall balustrade, and a reinforcing bar support portion formed of precast concrete and formed of the reinforcing bar support portion. The concrete of the wall balustrade is placed on the reinforcing bar support portion of the precast concrete side groove provided with the side groove portion forming the side groove extending in the bridge axis direction while being integrated with the reinforcing bar supporting portion on the side opposite to the road surface. The side groove arranging step of arranging the precast concrete side groove so as to be located in the portion to be formed, and
While the horizontal reinforcing bar is supported by the reinforcing bar support portion of the precast concrete side groove arranged in the gutter arranging step, the horizontal reinforcing bar is arranged in the portion of the wall balustrade where the concrete is placed. Reinforcing bar arrangement process and
A method for attaching a precast concrete gutter, comprising a placing step of placing the concrete in a portion of the wall balustrade where the concrete is placed. In the horizontal reinforcing bar arranging step, while the horizontal reinforcing bar is supported by the reinforcing bar supporting portion, the side of the road surface of the vertical reinforcing bar extending in the vertical direction in the portion of the wall balustrade where the concrete is cast is provided. The method for attaching a precast concrete side groove according to claim 5, wherein the horizontal reinforcing bars are arranged so that the horizontal reinforcing bars extend along the bridge axis direction. In the gutter arranging step, the precast concrete gutter is formed so that the protrusion of the precast concrete gutter projecting into the portion of the wall balustrade where the concrete is cast is located above the member integrated with the bridge. The method for mounting a precast concrete gutter according to claim 5 or 6, wherein the precast concrete gutter is arranged.

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