JP2015074886A - Box culvert and method of constructing the same - Google Patents

Abstract

PROBLEM TO BE SOLVED: To improve construction efficiency by eliminating the need for excessive facilities required for construction and making supporting unnecessary in the construction.SOLUTION: There is provided a box culvert such that precast concrete parts 2 forming a pair of right and left side walls facing each other, a top slab 3A connecting upper ends of the precast concrete parts 2 to each other, and a bottom slab 3B connecting lower ends of the precast concrete parts 2 to each other are arranged at four sides of a rectangle; the precast concrete parts 2 comprise side walls 2A, 2B and corner walls 2C-2F; second embedded steel materials 22 extending in a box peripheral direction are provided inside the corner walls 2C-2F; the top slab 3A and bottom slab 3B have a cast-in-place concrete structure; connection steel materials 31 which extend in the box peripheral direction and are connected to the second embedded steel materials 22 are provided therein; and a steel plate 33 serving as a concrete form for concrete casting is embedded in the top slab 3A.

Description

  The present invention relates to a box culvert and a construction method thereof.

Conventionally, a box culvert that constructs a passage or a culvert with a precast block is known.
Further, in a box culvert, a precast block portion made of a precast concrete plate and a cast-in-place concrete structure portion constructed by cast-in-place concrete may be divided (for example, see Patent Document 1). In this case, as a method for constructing the box culvert, the concrete blocks constituting the side walls are arranged to face each other, and a rebar is inserted into the part where the bottom plate and the top plate are formed between the two, and then the formwork is assembled. It is installed and casted with concrete to form a bottom plate and a top plate, and a box culvert with a substantially rectangular cross section is constructed as a whole.

JP-A-4-293830

However, the box culvert as described above has the following problems.
In other words, in the case of a box culvert formed by a precast concrete plate over the entire circumference of the box, the thickness dimension of the precast concrete plate increases when the span is large or the cover of the box culvert is large. There was a problem that large equipment was required for carrying in and erection, and workability deteriorated.

  Moreover, when the precast concrete part and the cast-in-place concrete structure part are divided | segmented like the said patent document 1, in the state before concrete placement in the bottom plate and top plate in which concrete is cast, for example, H It is necessary to install a supporting work such as a shape steel or a grooved steel, which increases costs and requires labor and time for construction, and there is room for improvement in that respect.

  The present invention has been made in view of the above-described problems, and it eliminates the need for excessive equipment necessary for construction, and improves construction efficiency by making it possible to eliminate support work during construction. It is an object of the present invention to provide a box culvert that can be made and a construction method thereof.

  In order to achieve the above object, in the box culvert according to the present invention, a precast concrete plate forming a pair of left and right side walls facing each other, a top plate connecting the upper ends of the precast concrete plate, and the lower ends of the precast concrete plate are connected to each other. A box culvert arranged on four sides of a rectangular base plate to be connected, the precast concrete plate is provided with an embedded steel material extending along the circumferential direction of the box, and the top plate and the bottom plate are cast-in-place concrete A steel plate or precast concrete plate that has a structure and extends in the circumferential direction of the box inside, and is provided with a connecting steel material that is connected to the embedded steel material. The top plate also serves as a formwork for placing concrete. Is characterized by being buried.

  In the box culvert construction method according to the present invention, the precast concrete plate that forms a pair of left and right side walls facing each other, the top plate that connects the upper ends of the precast concrete plate, and the lower ends of the precast concrete plate are connected. A box culvert construction method in which a bottom plate is disposed on four sides of a rectangle, a step of installing a precast concrete plate, and an embedded steel material extending along a circumferential direction of the box provided inside the precast concrete plate. A steel plate or precast concrete that has a step of connecting a connecting steel material extending along the circumferential direction of the box provided inside the top plate and the bottom plate to the end portion, and also serving as a formwork for placing concrete on the bottom surface of the top plate Placing concrete at the concrete filling location of the top plate and bottom plate It is characterized by having a step.

  In the present invention, the top and bottom plates of the box culvert have a cast-in-place concrete structure, not a precast concrete plate. Therefore, the box culvert has a large span or a large earth cover, and the plate thickness of the top or bottom plate is increased. Even if it is a case, it can construct | assemble by carrying in the divided members, such as connection steel materials, a steel plate, or a precast concrete board which constitute a cast-in-place concrete structure, and placing concrete. This eliminates the need for large-scale equipment for carrying in and installing the top and bottom plates made of precast concrete plates with large plate thickness and weight, making it possible to simplify the equipment for construction and transport costs. And construction costs can be reduced.

Further, in the present invention, the connecting steel material of the top plate and the bottom plate is connected to the embedded steel material of the precast concrete plate, and since the top plate and the bottom plate are continuous in the circumferential direction of the box, the prestress necessary for integration is obtained. There is an advantage that becomes unnecessary. Moreover, in the box culvert of the present invention, since the connecting steel material connected to the embedded steel material also serves as a support work in the construction state before the concrete placement of the top plate portion and the bottom plate portion, it is necessary to newly provide a support work. In addition, the construction efficiency can be improved.
Furthermore, in the present invention, since the steel plate for pre-casting or the precast concrete plate is provided as the structure of the top plate, the formwork is newly assembled or removed from the bottom surface of the top plate at the time of concrete pouring. Construction becomes unnecessary, and construction efficiency can be improved in that respect.

  In the box culvert according to the present invention, it is preferable that the steel plate or the precast concrete plate is supported by being suspended from the connecting steel material.

  In this case, since the steel plate or the precast concrete plate is supported by the connecting steel material connected to the embedded steel material of the precast concrete plate, it is easy to position and can be surely fixed.

  In the box culvert according to the present invention, it is preferable that the top plate and the bottom plate are each provided with a second main reinforcing bar connected to the first main reinforcing bar provided in the precast concrete plate.

  In this case, since the second main reinforcing bars of the top plate and the bottom plate are also connected to the first main reinforcing bar of the precast concrete plate, there is an advantage that the top plate and the bottom plate have a structure that is more strongly continuous in the circumferential direction of the box.

  According to the box culvert of the present invention and the construction method thereof, it is possible to improve construction efficiency by making it unnecessary to use excessive facilities necessary for construction and eliminating the need for support work during construction. Can do.

It is the perspective view which showed the construction structure of the box culvert by embodiment of this invention. It is sectional drawing of the box culvert shown in FIG. It is sectional drawing which shows the detail of the top plate of a cast-in-place concrete structure part, Comprising: It is a figure of R part shown in FIG. (A)-(d) is a figure which shows the process of the construction method of the box culvert of this Embodiment.

  Hereinafter, a box culvert according to an embodiment of the present invention and a construction method thereof will be described with reference to the drawings.

As shown in FIGS. 1 and 2, the box culvert 1 according to the present embodiment is configured to include a precast block portion 2 made of a precast concrete plate and a cast-in-place concrete structure portion 3 on four sides of a rectangular cross-sectional view. ing.
Here, in the box culvert 1, a direction orthogonal to the extending direction thereof and a direction along the extending direction of the box culvert 1 in a sectional view is referred to as a box circumferential direction.

  FIG. 1 shows a state before placing concrete 34 in the cast-in-place concrete structure 3. In FIG. 2, the cast-in-place concrete structure 3 is a cross-sectional view.

  The precast block portion 2 includes a pair of left and right side walls 2A, 2B facing each other, and square walls 2C, 2D, 2E, 2F arranged at four corners of a rectangular cross section. Square walls 2C and 2D are arranged at the upper ends of the side walls 2A and 2B, and square walls 2E and 2F are arranged at the lower ends of the side walls 2A and 2B.

As shown in FIG. 2, the side walls 2 </ b> A and 2 </ b> B each have a wall shape, and a first embedded steel material 21 extending in the vertical direction is embedded therein.
Each of the square walls 2C to 2F has a substantially L-shaped cross section, and a second embedded steel material 22 connected to the first embedded steel material 21 on the side walls 2A and 2B is embedded along the L shape. And the 1st main reinforcement 23 for connecting to the cast-in-place concrete structure part 3 is made to protrude on the outer side of the horizontal direction rather than the end face 2a at the end surface 2a by the cast-in-place concrete structure part 3 side of square walls 2C-2F. It is provided in the state.

  As the first embedded steel material 21 and the second embedded steel material 22, for example, steel materials such as H-shaped steel are used, and in the width direction of the precast block portion 2 with the longitudinal direction (material axis direction) oriented in the box circumferential direction. For example, they are arranged in two or three rows with an interval, and are located approximately in the center in the thickness direction of the precast block portion 2. Then, the first embedded steel material 21 and the second embedded steel material 22 adjacent to each other in the box circumferential direction are connected to each other by bolting or the like.

  The cast-in-place concrete structure 3 includes a top plate 3A that connects the upper square walls 2C and 2D in the horizontal direction, and a bottom plate 3B that connects the lower square walls 2E and 2F in the horizontal direction, Consists of.

  The top plate 3A extends along the horizontal direction, and is connected to the end of the second embedded steel material 22 of each of the upper square walls 2C and 2D, the upper side of the connection steel material 31 and It has the 2nd main rebar 32 arrange | positioned on the lower side, and the steel plate 33 suspended from the connection steel material 31, and is embed | buried in the concrete 34 in which these are laid.

  The bottom plate 3B extends along the horizontal direction, and is connected to the ends of the second embedded steel members 22 of the lower square walls 2E and 2F, the upper side of the connecting steel member 31 and And a second main rebar 32 disposed on the lower side, and these are embedded in the concrete 34 on which they are placed.

The connecting steel material 31 of the top plate 3A and the bottom plate 3B is, for example, a steel material such as an H-shaped steel, and the width direction of the cast-in-place concrete structure portion 3 with its longitudinal direction (material axis direction) oriented in the box circumferential direction. For example, they are arranged in two rows or three rows at intervals, and are located substantially in the center in the thickness direction of the cast-in-place concrete structure portion 3. And the connection steel material 31 is connected to the 2nd embedding steel material 22 of the square walls 2C-2F adjacent to the box circumferential direction by bolting etc. by edge part. This connecting steel material 31 functions as a supporting work at the time of construction before placing the concrete 34 of the top plate 3A and the bottom plate 3B.
The 2nd main reinforcement 32 is connected to the 1st main reinforcement 23 which protrudes from end face 2a of square walls 2C-2F via a joint (illustration omitted).
In FIG. 1, only a part (the front side of the paper) of the connecting steel material 31 of the top plate 3A and the bottom plate 3B is shown and other portions are omitted for easy viewing.

  The steel plate 33 of the top plate 3A has a function of reinforcing the structure as the top plate 3A and also serving as a formwork for placing concrete. The steel plate 33 is made of a steel plate, is provided over the entire lower surface of the top plate 3A, and is supported by being suspended from a lower flange 31a of the connection steel material 31 by a plurality of suspension members 35 as shown in FIG. As shown in FIG. 2, the both ends 33a of the steel plate 33 are in contact with the end surfaces 2a of the upper square walls 2C and 2D without any gaps. As a result, the top plate 3A is in a completed form in which cast-in-place concrete is cast, and the steel plate 33 is exposed on the lower surface.

  The plurality of suspension tools 35 that support the steel plate 33 have a sufficient supporting force that can receive the weight of the concrete 34 placed on the steel plate 33. Further, the thickness dimension of the steel plate 33 is ensured such that the deformation does not occur due to the weight of the concrete 34 to be placed.

Next, the construction method of the box culvert 1 described above will be described in detail.
First, a retaining wall (not shown) is created on the ground where the box culvert 1 is constructed. At this time, as shown in FIG. 4 (a), the retaining wall is provided to a depth at which the lower square walls 2E and 2F of the precast concrete plate and the bottom plate 3B of the cast-in-place concrete structure part 3 can be installed, and the box culvert thereof 1 flooring board 4 is created. And the precast concrete plate (side wall 2A, 2B, square wall 2C-2F shown in FIG. 2) of the precast block part 2 of the box culvert 1 is manufactured in advance in a factory or the like.

Next, a pair of square walls 2 </ b> E and 2 </ b> F on the lower side of the precast block unit 2 are installed on the flooring board 4. At this time, the square walls 2E and 2F are fixed to the flooring board 4 with anchors or the like. The pair of square walls 2E and 2F are positioned with an interval corresponding to the construction range of the bottom plate 3B, and the first main reinforcing bar 23 projects from the end surface 2a on the bottom plate 3B side.
Next, the side walls 2A and 2B are connected to the upper ends of the corner walls 2E and 2F, and the upper corner walls 2C and 2D are connected to the upper ends of the side walls 2A and 2B, so that the precast block portion 2 is integrated. At this time, as shown in FIG. 2, the second embedded steel material 22 of the square walls 2C to 2F and the first embedded steel material 21 of the side walls 2A and 2B are connected.

  Then, as shown in FIG. 4B, after the precast block portion 2 is installed, the connection steel material 31 and the second main reinforcing bar 32 of the bottom slab 3B of the cast-in-place concrete structure portion 3 are performed. Specifically, as shown in FIG. 2, the end of the connecting steel 31 of the bottom plate 3B and the end of the second embedded steel 22 of the lower square walls 2E and 2F are connected, and the second of the bottom plate 3B is connected. The end of the main reinforcing bar 32 and the end of the first main reinforcing bar 23 of the lower square walls 2E and 2F are connected via a joint. In this state, the precast block portion 2 receives the earth pressure of the outer ground on the inner side in the left-right direction, but since the connecting steel material 31 is installed in the bottom slab 3B portion, the connecting steel material 31 serves as a support work. It functions and can hold precast block part 2 in a predetermined position.

  Next, as shown in FIG.4 (c), the concrete 34 is cast in the installation area | region of the bottom slab 3B, and the bottom slab 3B as a cast-in-place concrete structure is constructed | assembled. At this time, the connecting steel material 31 functioning as a support work is buried in the concrete 34 to form a cast-in-place concrete structure of the bottom slab 3B of the main building.

Further, the connecting steel material 31, the second main rebar 32, and the steel plate 33 of the top plate 3 </ b> A of the cast-in-place concrete structure 3 are performed. Specifically, the end of the connection steel 31 of the top plate 3A and the end of the second embedded steel 22 (see FIG. 2) of the upper square walls 2C and 2D are connected, and the second main of the top plate 3A is connected. The end of the reinforcing bar 32 and the end of the first main reinforcing bar 23 of the upper square wall 2C, 2D are connected via a joint. In this state, the earth pressure of the outer ground is received by the precast block portion 2 on the inner side in the left-right direction, but since the connecting steel material 31 is installed at the top plate 3A portion, the connecting steel material 31 is supported. And the precast block unit 2 can be held at a predetermined position.
Furthermore, the steel plate 33 is installed in the connection steel material 31 using the some suspension tool 35 (refer FIG. 2) so that it may become a position of the height corresponded to the bottom face of the top plate 3A.

  Next, as shown in FIGS. 4 (c) and 4 (d), the installed steel plate 33 becomes a formwork, and concrete 34 is placed from above, and the connecting steel 31 and the second main steel 31 are placed in the concrete 34. Reinforcing bars 32 are buried, and a cast-in-place concrete structure of the top plate 3A is provided. Thereby, the box culvert 1 in which the precast block part 2 and the cast-in-place concrete structure part 3 are integrated is constructed.

  In addition, in the construction method of this box culvert 1, the timing of placing the top plate 3A and the bottom plate 3B can be arbitrarily set. For example, only the precast block portion 2 is preceded and constructed along the extending direction of the box culvert 1, and then the top plate 3A is driven in parallel while the bottom plate 3B is driven in advance. Alternatively, after the bottom plate 3B is driven every several rings, the top plate 3A may be driven to construct the box culvert 1 integrated in the box circumferential direction in a short time.

Next, the operation of the above-described box culvert will be described in detail.
In the box culvert 1 of this embodiment, as shown in FIG. 2, the top slab 3A and the bottom slab 3B have a cast-in-place concrete structure and are not precast concrete slabs. Even when the plate thickness of the top plate or the bottom plate is increased, divided members such as the connecting steel 31 and the steel plate 33 constituting the cast-in-place concrete structure are carried in, assembled, and the concrete 34 is placed. Can be constructed. Therefore, a large-scale equipment for carrying in and installing the top plate 3A and the bottom plate 3B made of a precast concrete plate having a large plate thickness and a large weight is not required, and it is possible to simplify the installation equipment. Transportation costs and construction costs can be reduced.

Further, in the box culvert 1 of the present embodiment, the connecting steel material 31 of the top plate 3A and the bottom plate 3B is connected to the embedded steel material 22 of the square walls 2C to 2F of the precast concrete portion 2, and the top plate 3A is arranged in the box circumferential direction. In addition, since the bottom plate 3B has a continuous structure, there is an advantage that prestress necessary for integration is unnecessary.
Moreover, in this case, since the connecting steel material 31 connected to the embedded steel material 22 also functions as a support in the construction state before placing the top plate portion and the bottom plate portion into the concrete, there is no need to newly provide a support work. Construction efficiency can be improved.

Furthermore, since the steel plate 33 for concrete placement is provided as a configuration of the top plate 3A, it is not necessary to construct a new frame on the bottom surface of the top plate 3A at the time of concrete placement or to remove the mold. In that respect, the construction efficiency can be improved.
In addition, since the steel plate 33 is supported by the connecting steel material 31 connected to the embedded steel material 22 of the precast concrete portion 2 via the hanger 35, it is easy to position and can be reliably fixed.

  Further, since the second main reinforcing bars 32 of the top plate 3A and the bottom plate 3B are also connected to the first main reinforcing bars 23 of the square walls 2C to 2F, the top plate 3A and the bottom plate 3B have a structure that is more strongly continuous in the circumferential direction of the box. There are advantages.

  As described above, the box culvert and its construction method according to the present embodiment eliminates the need for excessive facilities necessary for construction and makes it possible to eliminate support work during construction. Can be improved.

As described above, the embodiment of the box culvert according to the present invention and the construction method thereof has been described, but the present invention is not limited to the above-described embodiment, and can be appropriately changed without departing from the spirit thereof. In addition, it is possible to appropriately replace the constituent elements in the above-described embodiments with known constituent elements.
For example, in the present embodiment, the precast concrete portion 2 is divided into the side walls 2A and 2B and the square walls 2C to 2F. However, the precast concrete portion 2 may be integrated, or the division position may be changed. Is possible.

Moreover, in this Embodiment, although it is set as the structure which connects the 1st main reinforcement 23 of the precast concrete part 2, and the 2nd main reinforcement 32 of the cast-in-place concrete structure part 3, it is not limited to this, These The main rebar may be omitted.
Furthermore, in the present embodiment, the steel plate 33 is adopted in the cast-in-place concrete structure portion 3, but a precast concrete plate can be used instead of the steel plate 33.

  Further, for example, in the bottom plate, steel frames for positioning and connection at the time of construction may be embedded at the time of placing concrete and used for main installation.

DESCRIPTION OF SYMBOLS 1 Box culvert 2 Precast block part 2a End surface 3 Cast-in-place concrete structure part 3A Top plate 3B Bottom plate 4 Flooring board 21 1st embedded steel material 22 2nd embedded steel material 23 1st main reinforcement 31 Connection steel 32 2nd main reinforcement 33 Steel plate 34 Concrete 35 Suspension

Claims (4)

A precast concrete plate forming a pair of left and right side walls facing each other, a top plate connecting the top ends of the precast concrete plate, and a bottom plate connecting the bottom ends of the precast concrete plate are arranged on four sides of the rectangle. A box culvert,
The precast concrete plate is provided with an embedded steel material extending along the box circumferential direction inside,
The top plate and the bottom plate are made of cast-in-place concrete structure, and extend along the circumferential direction of the box inside thereof, and provided with a connecting steel material connected to the embedded steel material,
A box culvert in which the top plate is embedded with a steel plate or precast concrete plate that also serves as a formwork for placing concrete.   2. The box culvert according to claim 1, wherein the steel plate or the precast concrete plate is suspended and supported by the connection steel material.   The box culvert according to claim 1 or 2, wherein the top slab and the bottom slab are each provided with a second main reinforcing bar connected to a first main reinforcing bar provided on the precast concrete plate. A precast concrete plate forming a pair of left and right side walls facing each other, a top plate connecting the top ends of the precast concrete plate, and a bottom plate connecting the bottom ends of the precast concrete plate are arranged on four sides of the rectangle. A box culvert construction method,
Installing the precast concrete plate;
A connecting steel material extending along the circumferential direction of the box provided inside the top plate and the bottom plate is connected to an end portion of the embedded steel material extending along the circumferential direction of the box provided inside the precast concrete plate. And a process of
A step of placing a steel plate or precast concrete plate that also serves as a formwork for placing concrete on the bottom surface of the top plate;
Placing concrete in the concrete filling locations of the top and bottom plates;
A method for constructing a box culvert characterized by comprising:

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