JP6860167B2 - How to build Box Culvert and Box Culvert - Google Patents

Description

The present invention relates to a method for constructing a box culvert and a box culvert constructed by the method for constructing the box culvert.

At present, there is a strong concern that the number of on-site workers working at construction sites will decrease due to the declining population and the declining birthrate and aging population. Recently, in order to improve productivity at construction sites, even large box culverts rely only on cast-in-place concrete, which requires a large number of workers to assemble formwork, reinforcing bars, scaffolding, temporary support, etc. Instead, there is a growing demand for a construction method that allows the use of partially precast concrete blocks.

However, when trying to construct a large box culvert using a plurality of precast concrete blocks, the individual precast concrete blocks have to be enlarged, which makes manufacturing, transportation, and construction difficult. You will face it. For this reason, in the past, when constructing a large box culvert, most of the parts had to depend on cast-in-place concrete.

In order to solve this problem, it has been considered to construct a large box culvert (so-called half precast box culvert) that uses cast-in-place concrete together with a block made of precast concrete of a size that can be manufactured, transported, and constructed. It has been done.

However, when constructing a large half precast box culvert, a considerable number of blocks made of a plurality of precast concrete divided into small pieces are required. For this reason, from the examination stage, the work of loading and unloading a plurality of precast concrete blocks at the site and accurately assembling and installing the precast concrete blocks in a desired shape becomes extremely complicated. The problem was pointed out.

JP-A-2007-146641

The present invention has been made in view of the above circumstances, and is a box culvert capable of suitably constructing a relatively large box culvert by using cast-in-place concrete together with a member made of precast concrete. The purpose is to provide a construction method and a box culvert.

That is, the present invention has the following configuration.

The invention according to claim 1 is a box culvert including a bottom slab, left and right side slabs erected at both ends of the bottom slab, and top slabs erected between the upper ends of these left and right side slabs. In the construction method, the left and right side slabs are cast-in-place concrete formed by placing cast-in-place concrete in the side slab construction unit and the cast-in-place concrete arrangement space provided in the side slab construction unit. The side plate construction unit includes a plate component, and the side plate construction unit includes a first side plate forming member made of precast concrete, a second side plate forming member made of precast concrete, and these first side plates. A support member that supports the first side slab forming member and the second side slab forming member in a state where the cast-in-place concrete arrangement space is formed between the forming member and the second side slab forming member. The steps for forming the side slab include a side slab construction unit installation step of installing the side slab construction unit at a predetermined position, and a side slab construction unit installation step, and then the side slab construction. It is provided with a side slab placing step of placing cast-in-place concrete in the concrete arrangement space of the unit, and the side slab construction unit is the first side slab forming member and the second side. It is supported by the support member so that the separation distance from the plate forming member can be changed, the support member is a plurality of reinforcing bars, and one end of the support member moves with respect to the first side plate forming member. The other end is impossibly embedded so that the mounting position can be adjusted with respect to the second side plate forming member, and the other end is formed with a thread groove. It is a method of constructing a box calvert characterized in that it is attached to a predetermined position by an inner nut and an outer nut in a state of being inserted into a plurality of reinforcing bar insertion holes provided in the second side plate forming member.

In the invention according to claim 2, the side slab construction unit forms the cast-in-place concrete arrangement space that communicates in the vertical direction, and the first side slab forming member has a plate shape and is a box. The method for constructing a box culvert according to claim 1, wherein the second side plate forming member is located on the outer air side of the culvert and is located on the inner air side of the box culvert in a plate shape. ..

The invention according to claim 3 includes a step of arranging a plurality of the side slab construction units adjacent to each other in a direction in which the internal space of the box culvert communicates, and the side slab construction unit installation step is adjacent to each other. The method for constructing a box culvert according to claim 1 or 2, wherein reinforcing bars that can pass through a virtual boundary line between plate construction units are arranged in the cast-in-place concrete arrangement space.

The invention according to claim 4 is any one of claims 1 to 3, wherein the first side plate forming member and the second side plate forming member have a plate shape and are substantially parallel to each other. This is the method for constructing the box culvert described in the section.

The invention according to claim 5 is the invention in which the side plate construction unit sets the lower end edge of the first side plate forming member and the lower end edge of the second side plate forming member at the same horizontal position. The method for constructing a box culvert according to any one of items 1 to 4.

The invention according to claim 6 comprises a reinforcing steel material in which both or one of the first and second side plate forming members is cantilevered in the cast-in-place concrete arrangement space. The method for constructing a box culvert according to any one of Items 1 to 5.

The invention according to claim 7 is the method for constructing a box culvert according to any one of claims 1 to 6, wherein the support member is made of a single or a plurality of steel materials.

The invention according to claim 8 is a box culvert including a bottom slab, left and right side slabs erected at both ends of the bottom slab, and top slabs erected between the upper ends of these left and right side slabs. Therefore, the left and right side slabs are formed by placing cast-in-place concrete in the side slab construction unit and the cast-in-place concrete arrangement space provided in the side slab construction unit. The side slab construction unit is made of precast concrete and has a first side slab forming member, a second side slab forming member made of precast concrete, and these first side slabs. A support member that supports the first side slab forming member and the second side slab forming member in a state where the cast-in-place concrete arrangement space is formed between the forming member and the second side slab forming member. The side plate construction unit is supported by the support member so that the separation distance between the first side plate forming member and the second side plate forming member can be changed. The support member is a plurality of reinforcing bars, one end of which is immovably embedded in the first side plate forming member and the other end of which is immovably embedded in the second side plate forming member. It is configured so that the mounting position can be adjusted, and a thread groove is formed at the other end portion, and is inserted into a plurality of reinforcing bar insertion holes provided in the second side plate forming member. A box culvert that is attached in place by an inner nut and an outer nut.

As described above, according to the present invention, there is provided a method for constructing a box culvert, which enables a relatively large box culvert to be suitably constructed by using cast-in-place concrete together with a member made of precast concrete, and a box culvert. can do.

The perspective view which shows one Embodiment of this invention. Front view of the side plate construction unit in the same embodiment. The side view of the side plate construction unit in the same embodiment. The plan view of the side plate construction unit in the same embodiment. FIG. 3 is a sectional view taken along line XX in FIG. FIG. 2 is a cross-sectional view taken along the line YY in FIG. A schematic front view (corner block installation step) for explaining a method of constructing a box culvert in the same embodiment. A schematic front view (bottom slab placing process / first side slab construction unit installation process) for explaining the method of constructing a box culvert in the same embodiment. The schematic front view explaining the method of constructing the box culvert in the same embodiment (second side plate construction unit installation process). A schematic front view (top plate constituent block installation process) for explaining the method of constructing the box culvert in the same embodiment. A schematic front view (side plate placing process / top plate placing process) for explaining the method of constructing the box culvert in the same embodiment. The plan view for demonstrating the connection | connection mode of the side plate construction unit in the front-rear direction in the same embodiment. A partial front view for explaining an example of the usage mode of the reinforcing bar in the side plate construction unit. A partial plan view for explaining an example of the usage mode of the reinforcing bar in the side plate construction unit. A partial front view for explaining an example of the usage mode of the reinforcing bar in the side plate construction unit. A partial plan view for explaining an example of the usage mode of the reinforcing bar between the side slab construction units adjacent to each other in the front-rear direction. The front view for demonstrating an example of the connection mode of a corner block and a side slab construction unit. The front view for demonstrating an example of the connection mode of a side plate construction unit and a top plate constituent block. The perspective view which shows the other embodiment of this invention. The plan view for demonstrating the connection | connection mode of the side plate construction unit in the front-rear direction in the same embodiment. A flow chart for explaining an example of how to build a box culvert.

Hereinafter, an embodiment of the present invention will be described with reference to FIGS. 1 to 12 and 21. Note that FIG. 1 is a perspective view showing an overall outline of the large half precast box culvert A. Further, FIGS. 2 to 6 are diagrams for explaining the first side plate construction unit H, which is a side plate construction unit. 6 to 12 and 21 are diagrams for explaining a method of constructing the half precast box culvert A. Although FIGS. 13 to 20 show other embodiments, they will be described with reference to the embodiments shown in FIGS. 1 to 12 and 21 in order to supplement the embodiments.

The large half precast box culvert A in this embodiment is a member made of precast concrete (that is, corner block F, outer air side and inner air side side plate forming members 1, 2, 5, 6, and apex. Plate constituent blocks L) and parts constructed by placing cast-in-place concrete (that is, cast-in-place bottom plate constituents G, first and second cast-in-place plate constituents I, K, and cast-in-place tops. It is used in combination with the plate constituent unit M).

In the following description, the half precast box culvert A will be simply referred to as "box culvert A".

As shown in FIG. 1, the box culvert A is located between the bottom slab B provided on the foundation E, the left and right side slabs C erected at both ends of the bottom slab B, and the upper ends of the left and right side slabs C. It is equipped with a top plate D erected in.

<< Bottom plate B >>
The bottom slab B is located between the left and right corner blocks F made of precast concrete and the left and right corner blocks F, which are arranged at intervals on the left and right so as to be located at the left and right corners of the box culvert A. It is provided with a cast-in-place bottom slab component G formed by casting cast-in-place concrete.

<Corner block F>
The left and right corner blocks F have a substantially L-shape when viewed from the front. A plurality of left and right corner block Fs are arranged in a direction in which the internal space P of the box culvert A communicates (hereinafter, referred to as "front-back direction"). The left and right corner block Fs arranged in the front-rear direction are firmly connected by a connecting means (not shown).

Any connecting means may be used to connect the corner blocks F adjacent to each other in the front-rear direction. As the connecting means, for example, a mortar-filled reinforcing bar joint is provided in the corner block F, a reinforcing bar projecting from one side is inserted into the mortar-filled reinforcing bar joint provided on the other side, and then a non-shrink mortar is used. A mode of fixing can be mentioned. In addition to this, as means for connecting the corner blocks F adjacent to each other in the front-rear direction, for example, a mode of connecting the corner blocks F adjacent to each other in the front-rear direction by appropriately using connecting bolts and nuts, and Examples thereof include a mode of tightening using a PC steel material (PC steel rod or PC steel stranded wire).

<Site bottom plate component G>
The cast-in-place bottom slab component G is formed by placing cast-in-place concrete in the cast-in-place concrete arrangement space SB for the bottom slab formed between the left and right corner blocks F. Reinforcing bars are arranged in advance in the cast-in-place concrete arrangement space SB for the bottom slab.

As shown in FIG. 17, a plurality of reinforcing bars f2 are projected from the left and right corner block F toward the cast-in-place concrete arrangement space SB, and are integrated with the cast-in-place bottom slab component G. Is planned.

<< Side version C >>
The left and right side plates C are mounted on the first side plate construction unit H, which is a side plate construction unit mounted on the left and right corner block F, and the first side plate construction unit H. The second side slab construction unit J, which is a side slab construction unit, and the first and second cast-in-place concrete, which are cast-in-place concrete arrangement spaces provided in the first and second side slab construction units H and J. It is provided with first and second cast-in-place slab constituents I and K, which are cast-in-place slab constituents formed by placing cast-in-place concrete in the arrangement spaces R1 and R2. ..

<First side version construction unit H>
The first side slab construction unit H is prefabricated at a place different from the site where the box culvert A is constructed (for example, a factory where precast concrete members are manufactured). Then, the first side plate construction unit H can be transported and installed at the site where the box culvert A is constructed in a cohesive manner, that is, a unitized mode.

As shown in FIG. 2, the first side slab construction unit H and the side slab forming member 1 on the outer air side, which is the first side slab forming member made of precast concrete, located on the outer air side of the box calvert A. , Side plate forming member 2 on the inner air side, which is a second side plate forming member made of precast concrete located on the inner air side of Box Calvert A, side plate forming member 1 on the outer air side, and side on the inner air side. A support that mutually supports the side plate forming member 1 on the outer air side and the side plate forming member 2 on the inner air side in a state where the first cast-in-place concrete arrangement space R1 is formed between the plate forming member 2 and the plate forming member 2. It is provided with a plurality of reinforcing bars 3 as members.

The first side plate construction unit H has a side plate forming member 1 on the outer air side and a side plate forming member 2 on the inner air side arranged apart from the side plate forming member 1 on the outer air side, respectively. It is supported by a plurality of reinforcing bars 3. That is, the first side plate construction unit H is formed by connecting the side plate forming members 1 and 2 on the outer air side and the inner air side by a plurality of reinforcing bars 3 to form a unit. In other words, the first side plate construction unit H is configured so that the side plate forming member 1 on the outer air side, the side plate forming member 2 on the inner air side, and the plurality of reinforcing bars 3 can be integrally moved. It is a thing.

The side plate forming member 1 on the outer air side has a plate shape. The side slab forming member 1 on the outer air side is located on the outer air side of the box culvert A, that is, outside the first cast-in-place concrete arrangement space R1. Inside the side plate forming member 1 on the outer air side, a plurality of internal force distribution bars 11 formed of reinforcing bars are provided so as to extend in the horizontal direction. The end portion of the internal force distribution bar 11 is projected into the first cast-in-place concrete arrangement space R1. The side plate forming member 1 on the outer air side is provided with a plurality of reinforcing bars 12 extending in the vertical direction at predetermined positions.

The side plate forming member 2 on the inner air side has a plate shape. The side slab forming member 2 on the inner air side is located on the inner air side of the box culvert A, that is, inside the first cast-in-place concrete arrangement space R1. Inside the side plate forming member 2 on the inner air side, a plurality of internal force distribution bars 21 formed of reinforcing bars are provided so as to extend in the horizontal direction. The end portion of the internal force distribution bar 21 is projected into the first cast-in-place concrete arrangement space R1. The side plate forming member 2 on the inner air side is provided with a plurality of reinforcing bars 22 extending in the vertical direction at predetermined positions. The side plate forming member 2 on the inner air side is formed with a plurality of reinforcing bar insertion holes 23 penetrating in the plate thickness direction of the side plate forming member 2 on the inner air side. Further, a recessed portion 24 in which a mounting seat for the outer nut n2 is formed is provided at a position continuous with the reinforcing bar insertion hole 23 on the outer surface side (the side facing the internal space P) of the side plate forming member 2 on the inner empty side. ing.

The side plate forming members 1 and 2 on the outer air side and the inner air side in the first side plate construction unit H are set to have substantially the same size. Further, the side plate forming members 1 and 2 on the outer air side and the inner air side are arranged in an upright posture and substantially parallel to each other. The side plate forming members 1 and 2 on the outer air side and the inner air side have lower end edges 1e and 2e set at the same horizontal position. In other words, the lower end edges 1e and 2e of the side plate forming members 1 and 2 on the outer air side and the inner air side are set at the same height position.

The first cast-in-place concrete arrangement space R1 is formed between the side slab forming members 1 and 2 on the outer air side and the inner air side. In other words, the first side slab construction unit H forms the first cast-in-place concrete arrangement space R1 that communicates in the vertical direction and the front-rear direction.

As shown in FIGS. 5 and 6, the plurality of reinforcing bars 3 serving as support members can support each other in a state where the side plate forming member 1 on the outer air side and the side plate forming member 2 on the inner air side are separated from each other. is there. The end portions 31 of the plurality of reinforcing bars 3 are immovably embedded with respect to the side plate forming member 1 on the outer air side. On the other hand, thread grooves 321 are formed at the end portions 32 of the plurality of reinforcing bars 3. Then, the end portions 32 of the plurality of reinforcing bars 3 are determined by the inner nut n1 and the outer nut n2 in a state of being inserted into the plurality of reinforcing bar insertion holes 23 provided in the side plate forming member 2 on the inner air side. It is installed in the position of. That is, the plurality of reinforcing bars 3 are configured so that the mounting position can be adjusted with respect to the side plate forming member 2 on the inner air side. In other words, the first side plate construction unit H is supported by a plurality of reinforcing bars 3 so that the separation distance between the side plate forming members 1 and 2 on the outer air side and the inner air side can be changed. ..

As shown in FIGS. 8 and 9, the corner block F and the first side plate construction unit H are firmly connected by a connecting means (not shown). Any means may be used for connecting the corner block Fs adjacent to each other in the vertical direction and the first side plate construction unit H. As a connecting means, for example, as shown in FIG. 17, a mortar-filled reinforcing bar joint tt is provided at the lower ends of the side plate forming members 1 and 2 on the outer air side and the inner air side in the first side plate construction unit H. , The mode in which the reinforcing bar f3 projecting upward from the corner block F is inserted into the mortar-filled reinforcing bar joint tt, and then the non-shrinkable mortar is poured into the mortar-filled reinforcing bar joint tt to fix the reinforcing bar f3. Can be mentioned. As another means of connecting the corner block F adjacent to each other in the vertical direction and the first side plate construction unit H, for example, connecting bolts and nuts are appropriately used to appropriately use the corner block F and the first side plate. Examples thereof include a mode of connecting the construction unit H and a mode of tightening using a PC steel material (PC steel rod or PC steel stranded wire).

<First on-site version component I>
The first cast-in-place side slab component I is formed by placing cast-in-place concrete in the first cast-in-place concrete arrangement space R1 formed in the first side slab construction unit H. ..

As shown in FIG. 12, in the first cast-in-place concrete arrangement space R1, the side plates on the outer air side and the inner air side, which are continuously provided in the front-rear direction, before the cast-in-place concrete is placed. External force distribution bars 4a and 4b extending in the horizontal direction along the forming members 1 and 2 are arranged.

The external force distribution bars 4a along the side slab forming member 1 on the outer air side are arranged in the front-rear direction, and the end 111 of the internal force distribution bars 11 projecting into the first cast-in-place concrete arrangement space R1. Is supported in a prescribed manner. The external force distribution bars 4b along the side slab forming member 2 on the inner air side protrude into the first cast-in-place concrete arrangement space R1 in the first side slab construction unit H continuously provided in the front-rear direction. It is supported by the end portion 211 of the internal force distribution muscle 21 by a predetermined method. After the external force distribution bars 4a and 4b are set at predetermined positions, the cast-in-place concrete is cast in the first cast-in-place concrete arrangement space R1 to form the first cast-in-place slab component I. It will be.

By the way, the external force distribution bars 4a and 4b may be arranged at predetermined positions along the side plate forming members 1 and 2 on the outer air side and the inner air side, respectively. Therefore, it does not have to be connected to the internal force distribution bars 11 and 12 as described above.

For example, as shown in the example of FIG. 20, in the first cast-in-place concrete arrangement space R1 or the second cast-in-place concrete arrangement space R2 of the side slab forming members 1 and 2 on the outer air side and the inner air side, respectively. Supporting means sh capable of supporting the external force distribution muscles 4a and 4b from at least the lower side may be provided. The support means sh shown in FIG. 20 is a hook protruding in an L shape toward the first cast-in-place concrete arrangement space R1. The supporting means sh may be any as long as it can support the external force distribution bars 4a and 4b, and may be, for example, a hook-shaped one that projects diagonally toward the first cast-in-place concrete arrangement space R1.

If the external force distribution bars 4a and 4b use the support means sh as described above, temporary fixing work by an operator or the like becomes unnecessary. It is possible to relatively easily set the external force distribution muscles 4a and 4b at a predetermined position along 2.

For example, if the external force distribution muscles 4a and 4b are inserted from the gable side (edge side), that is, the front side or the back side, and the external force distribution muscles 4a and 4b are placed on the support means sh, the first method is performed. It is possible to dispose the external force distribution bars 4a and 4b at predetermined positions without the need for a worker to enter the cast-in-place concrete arrangement space R1.

<Second side version construction unit J>
The second side plate construction unit J is arranged on the first side plate construction unit H. Regarding the connection mode between the plurality of reinforcing bars 7 in the second side plate construction unit J and the side plate forming members 5 and 6 on the outer air side and the inner air side, basically, a plurality of reinforcing bars 7 in the first side plate construction unit H. It is the same as the connection mode between the reinforcing bar 3 and the side plate forming members 1 and 2 on the outer air side and the inner air side.

The outer air side side plate forming member 5 in the second side plate construction unit J is arranged on the outer air side side plate forming member 1 in the first side plate construction unit H, and is the first. The inner air side side plate forming member 6 in the second side plate construction unit J is arranged on the inner air side side plate forming member 2 in the first side plate construction unit H. The second cast-in-place concrete arrangement space R2 in the second side slab construction unit J is arranged on the first cast-in-place concrete arrangement space R1 in the first side slab construction unit H.

In the second side plate construction unit J, the height dimension of the side plate forming member 5 on the outer air side is the height of the side plate forming member 6 on the inner air side as compared with the first side plate construction unit H. It differs in that it is set longer than the dimensions.

The second side slab construction unit J is prefabricated at a place different from the site where the box culvert A is constructed (for example, a factory where precast concrete members are manufactured). Then, the second side plate construction unit J can be transported and installed at the site where the box culvert A is constructed in a cohesive manner, that is, a unitized mode.

The second side slab construction unit J is a side slab forming member 5 on the outer air side, which is a first side slab forming member made of precast concrete located on the outer air side of the box culvert A, and the inner sky of the box culvert A. Between the side plate forming member 6 on the inner air side, which is the second side plate forming member made of precast concrete located on the side, and the side plate forming member 5 on the outer air side and the side plate forming member 6 on the inner air side. With a plurality of reinforcing bars 7 serving as support members for mutually supporting the side slab forming member 5 on the outer air side and the side slab forming member 6 on the inner air side in a state where the second cast-in-place concrete arrangement space R2 is formed in the air. It has.

The second side plate construction unit J has a side plate forming member 5 on the outer air side and a side plate forming member 6 on the inner air side arranged apart from the side plate forming member 5 on the outer air side, respectively. It is supported by a plurality of reinforcing bars 7. That is, the second side plate construction unit J is formed by connecting the side plate forming members 5 and 6 on the outer air side and the inner air side by a plurality of reinforcing bars 7 to form a unit. In other words, the second side plate construction unit J is configured so that the side plate forming member 5 on the outer air side, the side plate forming member 6 on the inner air side, and the plurality of reinforcing bars 7 can be integrally moved. It is a thing.

The side plate forming member 5 on the outer air side has a plate shape. The side slab forming member 5 on the outer air side is located on the outer air side of the box culvert A, that is, outside the second cast-in-place concrete arrangement space R2. Inside the side plate forming member 5 on the outer air side, a plurality of internal force distribution bars 11 formed of reinforcing bars are provided so as to extend in the horizontal direction. The end of the internal force distribution bar 11 is projected into the second cast-in-place concrete arrangement space R2. The side plate forming member 5 on the outer air side is provided with a plurality of reinforcing bars 12 extending in the vertical direction at predetermined positions. The reinforcing bar 12 is for ensuring the rigidity of the side plate forming member 5 on the outer air side.

The side plate forming member 5 on the outer air side has an extending portion 5n extending upward from the side plate forming member 6 on the inner air side. A cast-in-place concrete arrangement space SD for the top slab for forming the top slab D is formed between the extending portions 5n of the side slab forming members 5 on the outer air side arranged on the left and right.

The upper end surface 5 m of the side slab forming member 5 on the outer air side in the second side slab construction unit J is set to substantially the same height as the upper end surface M1 of the on-site top plate constituent portion M. That is, the upper end surface 5 m of the side plate forming member 5 on the outer air side and the upper end surface M1 of the on-site top plate constituent portion M are substantially flush with each other. The side plate forming member 6 on the inner air side and the upright portion L1 of the top plate forming block L are firmly connected by a connecting means (not shown).

As shown in FIG. 18, from the upper part of the side plate forming member 5 on the outer air side (the portion located above the side plate forming member 6 on the inner air side), the upright portion L1 or the cast-in-place concrete arrangement for the top plate A plurality of reinforcing bars f4 are projected toward the installation space SD.

The side plate forming member 6 on the inner air side has a plate shape. The side slab forming member 6 on the inner air side is located on the outer air side of the box culvert A, that is, inside the second cast-in-place concrete arrangement space R2. Inside the side plate forming member 6 on the inner air side, a plurality of internal force distribution bars 21 formed of reinforcing bars are provided in a manner extending in the horizontal direction. The end portion of the internal force distribution bar 21 is projected into the second cast-in-place concrete arrangement space R2. The side plate forming member 6 on the inner air side is provided with a plurality of reinforcing bars 22 extending in the vertical direction at predetermined positions. The side plate forming member 6 on the inner air side is formed with a plurality of reinforcing bar insertion holes 23 penetrating in the plate thickness direction of the side plate forming member 6 on the inner air side. Further, a recessed portion 24 in which a mounting seat for the outer nut n2 is formed is provided at a position continuous with the reinforcing bar insertion hole 23 on the outer surface side (the side facing the internal space P) of the side plate forming member 6 on the inner empty side. ing.

The side plate forming member 5 on the outer air side of the second side plate construction unit J is set to have a longer vertical dimension than the side plate forming member 6 on the inner air side. Further, the side plate forming members 5 and 6 on the outer air side and the inner air side are arranged in an upright posture and substantially parallel to each other. The side plate forming members 5 and 6 on the outer air side and the inner air side have lower end edges 5e and 6e set at the same horizontal position. In other words, the lower end edges 5e and 6e of the side plate forming members 5 and 6 on the outer air side and the inner air side are set at the same height position.

The second cast-in-place concrete arrangement space R2 is formed between the side slab forming members 5 and 6 on the outer air side and the inner air side. In other words, the second side slab construction unit J forms a second cast-in-place concrete arrangement space R2 that communicates in the vertical direction and the front-rear direction.

The plurality of reinforcing bars 7 serving as support members can support the side plate forming member 5 on the outer air side and the side plate forming member 6 on the inner air side in a separated state. The end portions 31 of the plurality of reinforcing bars 7 are immovably embedded with respect to the side plate forming member 5 on the outer air side. On the other hand, thread grooves 321 are formed at the end portions 32 of the plurality of reinforcing bars 7. Then, the end portions 32 of the plurality of reinforcing bars 3 are predetermined by the inner nut n1 and the outer nut n2 in a state of being inserted into the plurality of reinforcing bar insertion holes 23 provided in the side plate forming member 6 on the inner air side. It is installed in the position. That is, the plurality of reinforcing bars 7 are configured so that the mounting position can be adjusted with respect to the side plate forming member 6 on the inner air side. In other words, the second side plate construction unit J is supported by a plurality of reinforcing bars 7 so that the separation distance between the side plate forming members 5 and 6 on the outer air side and the inner air side can be changed. ..

The first side plate construction unit H and the second side plate construction unit J are firmly connected to each other by the connecting means. Any connecting means may be used to connect the first side plate construction unit H and the second side plate construction unit J that are adjacent to each other in the vertical direction. As a connecting means, for example, as shown in FIGS. 17 and 18, mortar-filled reinforcing bar joints are provided at the lower ends of the outer and inner side slab forming members 5 and 6 in the second side slab construction unit J. A tt is provided, and a reinforcing bar f5 projecting upward from the first side plate construction unit H is inserted into the mortar-filled reinforcing bar joint tt, and then non-shrinkage mortar is poured into the mortar-filled reinforcing bar joint tt. As a result, a mode of fixing can be mentioned. As other means for connecting the first side plate construction unit H and the second side plate construction unit J that are adjacent to each other in the vertical direction, for example, a mode of connecting by appropriately using connecting bolts and nuts, or a PC steel material (PC steel material) A mode of tightening using a PC steel rod or a PC steel stranded wire) can be mentioned.

<Second on-site version component K>
The second cast-in-place side slab component K is formed by placing cast-in-place concrete in the second cast-in-place concrete arrangement space R2 formed in the second side slab construction unit J. ..

In addition, in the second cast-in-place concrete arrangement space R2, before the cast-in-place concrete is cast, along the side slab forming members 5 and 6 on the outer air side and the inner air side which are continuously provided in the front-rear direction. An external force distribution bar (not shown) extending in the horizontal direction is arranged. Since the configuration of the external force distribution muscle has the same configuration as the description of the first side plate construction unit H shown in FIG. 12, illustration and description will be omitted.

<< Top Edition D >>
The top slab D is a precast concrete top slab constituent block L erected between the second side slab construction units J arranged on the left and right, an upper side of the top slab constituent block L, and a second side slab. Cast-in-place concrete formed by placing cast-in-place concrete in the cast-in-place concrete arrangement space SD for the top slab formed between the extending portions 5e of the side slab forming member 5 on the outer air side in the construction unit J. It is provided with a plate component M.

<Top plate configuration block L>
The top plate constituent block L is a horizontal portion L2 that connects an upright portion L1 erected on the side plate forming member 6 on the inner air side of the second side plate construction unit J and an upper end portion of these upright portions L1. It has a downward U-shape with and.

As shown in FIG. 18, the upright portion L1 is provided with a reinforcing bar f6 extending substantially horizontally toward the side plate forming member 5 on the outer air side. Further, in the horizontal portion L2, a reinforcing bar f7 is erected toward the cast-in-place concrete arrangement space SD for the top plate. At the corner portion that is the boundary between the upright portion L1 and the horizontal portion L2, one end side protrudes into the cast-in-place concrete arrangement space SD for the top plate and the other end side protrudes into the second cast-in-place concrete arrangement space R2. The inclined reinforcing bar f8 is buried.

The top plate constituent block L is placed on the upper end surface of the side plate forming member 6 on the inner air side in the second side plate construction unit J arranged on the left and right. In other words, the top plate constituent block L is erected between the upper ends of the inner empty side side plate forming members 6 in the second side plate constituent units J arranged on the left and right. A plurality of top plate constituent blocks L are arranged in the front-rear direction. A plurality of top plate constituent blocks L arranged in the front-rear direction are firmly connected by connecting means.

Any connecting means may be used to connect the top plate constituent blocks L adjacent to each other in the front-rear direction. As the connecting means, for example, a mortar-filled reinforcing bar joint is provided in the top plate constituent block L, a reinforcing bar projecting from one side is inserted into the mortar-filled reinforcing bar joint provided on the other side, and then a non-shrink mortar is used. A mode of fixing can be mentioned. In addition to this, as means for connecting the top plate constituent blocks L adjacent to each other in the front-rear direction, for example, a mode of connecting the top plate constituent blocks L adjacent to each other in the front-rear direction by appropriately using connecting bolts and nuts, and Examples thereof include a mode of tightening using a PC steel material (PC steel rod or PC steel stranded wire).

The top plate constituent block L and the side plate forming member 6 on the inner air side of the second side plate construction unit J are firmly connected by connecting means. Any connecting means may be used to connect the top plate forming blocks L adjacent to each other in the vertical direction and the side plate forming member 6 on the inner air side. As a connecting means, for example, as shown in FIG. 18, a mortar-filled reinforcing bar joint tt is provided inside the top plate constituent block L (the lower end of the standing portion L1), and a second mortar-filled reinforcing bar joint tt is provided. An embodiment can be mentioned in which a reinforcing bar f9 projecting upward from the side plate construction unit J is inserted, and then a non-shrink mortar is poured into the mortar-filled reinforcing bar joint tt to fix the reinforcing bar f9. As another means of connecting the top plate constituent blocks L adjacent to each other in the vertical direction and the side plate forming member 6 on the inner air side, for example, connecting bolts and nuts are appropriately used to connect the top plate constituent blocks L and the inner air side. Examples thereof include a mode of connecting the side plate forming member 6 and a mode of tightening using a PC steel material (PC steel rod or PC steel stranded wire).

<Site-launched version component M>
The cast-in-place slab component M is formed by casting cast-in-place concrete in the cast-in-place concrete arrangement space SD for the top slab. In the cast-in-place concrete arrangement space SD for the top slab, reinforcing bars f7 erected from the top slab constituent block L and other reinforcing bars are arranged.

Further, from the side slab forming member 5 on the outer air side of the second side slab construction unit J, a reinforcing bar f4 extending in the horizontal direction toward the cast-in-place concrete arrangement space SD for the top slab is projected. It is integrated with the on-site top plate component M.

<< How to build Box Culvert A >>
Subsequently, the method of constructing the box culvert A in this embodiment will be described with reference to FIGS. 7 to 12 and FIG. 21 which is a flow chart.

The method for constructing the box culvert A in this embodiment includes a step for forming the bottom plate B, a step for forming the side plate C, and a step for forming the top plate D.

As shown in FIGS. 7, 8 and 21, the steps for forming the bottom slab B include the corner block installation step s1 for installing the corner block F at a predetermined position on the foundation E and the corner block installation step s1. After the corner block installation step s1 is completed, the bottom slab placing step s2 for placing cast-in-place concrete in the cast-in-place concrete arrangement space SB for the bottom slab formed between the corner block F is provided. ..

In the corner block installation step s1, a plurality of corner blocks F arranged in the front-rear direction are firmly connected by a connecting means (not shown). Before the bottom slab placing step s2 is executed, in the cast-in-place concrete arrangement space SB for the bottom slab formed between the left and right corner block F, the reinforcing bar f2 protruding from the corner block F and the reinforcing bar f2 , Other reinforcing bars (not shown) are arranged in an appropriate manner.

In the process for forming the side plate C, as shown in FIGS. 8, 9, 11, and 21, the first side plate construction unit H is placed on a predetermined position, that is, the corner block F. After the installation process s3 of the first side plate construction unit and the installation process s3 of the first side plate construction unit are completed, the second side plate construction unit J is installed on the first side plate construction unit H. After the second side slab construction unit installation process s4 and the second side slab construction unit installation process s4 are completed, the first and second cast-in-place concrete arrangements in the first and second side slab construction units H and J The space R1 and R2 are provided with a side slab placing step s5 for placing cast-in-place concrete.

In this embodiment, the side plate placing step s5 is performed after the top plate constituent block installation step s6, which will be described later, is completed. That is, as shown in FIG. 10, after completing the top plate constituent block installation step s6, as shown in FIG. 11, for the first and second cast-in-place concrete arrangement spaces R1, R2, and the top plate. Cast-in-place concrete is continuously put into the cast-in-place concrete arrangement space SD.

The side plate construction unit installation process, that is, the first and second side plate construction unit installation steps s3 and s4 are steps in which a plurality of first and second side plate construction units H and J are arranged adjacent to each other in the front-rear direction. It includes.

Here, as shown in FIG. 12, by placing cast-in-place concrete in the first cast-in-place concrete arrangement space R1, the external force distribution bars arranged in the first cast-in-place concrete arrangement space R1. A state in which 4a and 4b and the internal force distribution bars 11 and 21 provided in the first side plate construction unit H are substantially connected is constructed. In other words, in the first and second side plate construction unit installation steps s3 and s4, the external force distribution that is a reinforcing bar that can pass through the virtual boundary line ks between the first side plate construction units H adjacent to each other in the front-rear direction. The bars 4a and 4b are arranged in the cast-in-place concrete arrangement space R1 (cast-in-place concrete arrangement space R2) before the side slab placing step s5.

That is, a plurality of first side slab construction units H arranged in the front-rear direction are firmly integrated with each other as the cast-in-place concrete is placed. Similarly, the second side slab construction unit J is also firmly integrated by constructing a connected state with the external force distribution bar and placing cast-in-place concrete.

In the process for forming the top plate D, as shown in FIGS. 10, 11, and 21, the top plate constituent block is placed on the side plate forming member 6 on the inner side of the second side plate construction unit J. Top slab placing step s7 for placing cast-in-place concrete in the cast-in-place concrete arrangement space SD for top slab, which is performed after passing through the top slab constituent block installation step s6 for installing L and the top slab constituent block installation step s6. And have.

In the top plate constituent block installation step s6, a plurality of top plate constituent blocks L arranged in the front-rear direction are firmly connected by a connecting means (not shown). Before the top slab placing step s7, in the cast-in-place concrete arrangement space SD for the top slab, the reinforcing bar f7 erected in the horizontal portion L2 and the outer air side of the second side slab construction unit J Reinforcing bars f4 protruding from the plate forming member 5 and other reinforcing bars (not shown) are arranged.

As described above, the method of constructing the box culvert A according to the present embodiment is between the bottom plate B, the left and right side plates C erected at both ends of the bottom plate, and the upper ends of the left and right side plates C. It is a method of constructing a box culvert A equipped with a top plate D erected in. Then, the left and right side plates C are the first and second side plate construction units H and J, and the first and second side plate construction units H and J provided in these first and second side plate construction units H and J. The concrete arrangement spaces R1 and R2 are provided with first and second cast-in-place slab constituent parts I and K formed by casting cast-in-place concrete.

The first and second side slab construction units H and J are a first side slab forming member made of precast concrete, side slab forming members 1 and 5 on the outer air side, and a second side slab forming member made of precast concrete. First, between the inner air side side plate forming members 2 and 6, which are the side plate forming members, and the outer air side side plate forming members 1 and 5 and the inner air side side plate forming members 2 and 6. A plurality of reinforcing bars 4, 7 which are support members that mutually support the inner and outer air side side slab forming members 1, 5, 2, and 6 in a state where the second cast-in-place concrete arrangement spaces R1 and R2 are formed. Be prepared for.

The steps for forming the side plate C are the first and second side plate construction unit installation steps s3, s4 and the first, in which the first and second side plate construction units H and J are installed at predetermined positions. Cast-in-place concrete is cast in the first and second concrete arrangement spaces R1 and R2 in the first and second side slab construction units H and J, which are performed after the second side slab construction unit installation steps s3 and s4. It is provided with a side plate placing step s5 to be installed.

Therefore, it is possible to provide a method for constructing a box culvert A in which a relatively large box culvert A can be suitably constructed by using a cast-in-place concrete together with a member made of precast concrete.

That is, the first and second side plate construction units H and J include side plate forming members 1 and 5 on the outer air side, side plate forming members 2 and 6 on the inner air side, and a plurality of reinforcing bars 3 and 7. It is unitized so that it can be handled integrally. Since the first and second side plate construction units H and J, which are unitized construction members, are used to construct the side plate C of the box culvert A, it is only easy to carry and install at the site. Instead, it is possible to manage the construction members on a unit basis. Therefore, according to the method for constructing the box culvert A of the present embodiment, a large-sized box culvert A using a member made of precast concrete can be constructed accurately and smoothly.

Further, by applying the method for constructing the box culvert A in this embodiment, the generation of the subdivided members is suppressed, and the half precast box culvert A can be constructed without difficulty. As a result, it is possible to reduce the size of the member transport vehicle and the carry-in heavy machine, shorten the construction period by improving the efficiency of on-site work, and reduce the number of reinforcing bars and formwork.

By applying the construction method of Box Culvert A shown in this embodiment, there is a problem of labor shortage of work at the site in recent years, for example, work of special workers (formwork, reinforcing bars, scaffolding, temporary support work) at the site. The problem of shortage of personnel) can be dealt with appropriately within a limited number of people. That is, by using the unitized first and second side plate construction units H and J for the construction of the box culvert A, the amount of setting up the formwork, reinforcing bars, scaffolding, temporary support, etc. is reduced. Because of this, it is possible to flexibly respond to labor shortages.

The first and second side slab construction units H and J form the first and second cast-in-place concrete arrangement spaces R1 and R2 that are communicated in the vertical direction. Therefore, after the first and second side slab construction units H and J are installed at predetermined positions, the cast-in-place concrete is placed in the first and second cast-in-place concrete arrangement spaces R1 and R2. , The desired side plate C can be constructed.

The side plate forming members 1, 2, 5, and 6 on the outer air side and the inner air side form a plate shape and are substantially parallel to each other. Therefore, it is easy to perform the installation work at the site.

The first and second side plate construction units H and J set the lower end edges 1e, 2e, 5e and 6e of the side plate forming members 1, 2, 5 and 6 on the outer air side and the inner air side at the same horizontal position. It was done. Therefore, the first and second side plate construction units H and J can stably stand on the ground, the corner block F, and the first side plate construction unit H, and thus are transported. And the installation process can be carried out smoothly.

Since the support members supporting the side plate forming members 1, 2, 5 and 6 on the outer air side and the inner air side are composed of a plurality of reinforcing bars 3 and 7, respectively, the first and second on-site striking sides It is excellent in ensuring the rigidity of the plate constituents I and K.

The outer air side and the inner side so that the first and second side plate construction units H and J can change the separation distance between the outer air side and the inner air side side plate forming members 1, 2, 5 and 6. The empty side plate forming members 1, 2, 5, and 6 are supported by a plurality of reinforcing bars 3, 7. Therefore, the first and second side plate construction units H and J are installed at appropriate positions by adjusting the separation distances of 1, 2, 5 and 6 of the side plate forming members on the outer air side and the inner air side, respectively. Will be able to.

The side plate construction unit installation steps, that is, the first and second side plate construction unit installation steps s3 and s4 include a step of arranging a plurality of first and second side plate construction units H and J adjacent to each other in the front-rear direction. .. Then, the external force distribution bars 4a and 4b, which are reinforcing bars that can pass through the virtual boundary line ks between the first and second side plate construction units H and J adjacent to each other in the front-rear direction, are provided in the cast-in-place concrete arrangement spaces R1 and R2. It is arranged in. For this reason, the first and second side slab construction units H, which are adjacent to the external force distribution bars 4a and 4b in the front-rear direction, are interposed by the cast-in-place concrete to be thrown into the cast-in-place concrete arrangement spaces R1 and R2. The connection with J can be properly secured.

The present invention is not limited to the embodiments described in detail above.

The method of constructing the bottom plate or the top plate constituting the box culvert may be an appropriate construction method applied. That is, most of the bottom slab and the top slab may be formed of cast-in-place concrete, or most of the bottom slab and the top slab may be formed of precast concrete blocks.

The step for forming the side plate may be applied to form only a part of the side plate. That is, the side plate construction unit installation process and the side plate placing process may be applied only to the construction of a part of the side plate.

The side plate construction unit can adopt various forms as long as it has a unitized mode, and is not limited to the one shown in the above-described embodiment.

For example, the first and second side plate forming members constituting the side plate construction unit are not limited to those having a plate shape, and those having various shapes can be adopted.

Needless to say, the support member functions as a reinforcing material for the cast-in-place slab component after the cast-in-place concrete is cast.

In the above-described embodiment, a plurality of reinforcing bars are applied as the support member, but the support member may be composed of a plurality of reinforcing bars set to a smaller number than those shown in the above-described embodiment.

In the above-described embodiment, two types of side plate construction units are used to construct the side plate, but the present invention is not limited to such a unit. One type of side plate construction unit may be used for constructing the side plate, or two or more types of side plate construction units may be used. It goes without saying that one type of side plate construction unit may be stacked in the vertical direction for constructing the side plate.

The side slab construction unit may be provided with a reinforcing steel material that cantileverly protrudes from the side slab forming member into the cast-in-place concrete arrangement space together with the support member.

For example, as shown in FIGS. 13 to 15, the side slab construction unit H, together with the support member (not shown), is cast-in-place concrete from both the side slab forming members 1 and 2 on the outer air side and the inner air side. It is assumed that the reinforcing steel material f1 that protrudes cantileverly is provided in the arrangement space R1. One end of the reinforcing steel material f1 is embedded in the side plate forming members 1 and 2 on the outer air side and the inner air side. The reinforcing steel material f1 can exert a reinforcing function for the cast-in-place slab component after the cast-in-place concrete is cast. The reinforcing steel materials f1 protruding from both the outer air side and the inner air side side plate forming members 1 and 2 are arranged so as to overlap each other when viewed from a predetermined direction orthogonal to the longitudinal direction. Is desirable.

In order to increase the degree of connection between side slab construction units adjacent to each other in the front-rear direction, external force distribution bars, which are reinforcing bars that can pass through the virtual boundary between adjacent side slab construction units in the front-rear direction, are placed in cast-in-place concrete. It is desirable to arrange it in the space.

That is, the one shown in FIG. 16 has a shape in which the front end edge and the rear end edge of the side plate forming member 1 constituting the side plate construction unit H are cut out in a plan view. Then, in the notch space RK created by the notch, the external force distribution bar 4a, which is a reinforcing bar, is arranged so as to be able to pass through the virtual boundary line ks between the side plate construction units H. The external force distribution bar 4a in this embodiment is attached to one side of the adjacent side plate construction units H. With this configuration, cast-in-place concrete is disposed in the cast-in-place concrete arrangement space R1 including the notch space RK, and after the cast-in-place concrete is hardened, the side slab construction units H adjacent to each other in the front-rear direction Strong connection will be ensured.

As shown in FIG. 16, the side slab construction unit H having the side slab forming member 1 having the front and rear edge cut out is suspended from a predetermined position to be adjacent to another side slab construction unit. It can be installed without interfering with H.

The arrangement mode of the plurality of side plate construction units adjacent to each other in the front-rear direction can be set in various ways, and is not limited to the one shown in the above-described embodiment.

For example, the embodiment shown in FIGS. 19 and 20 can be considered. That is, in this embodiment, the embedded formwork U is interposed between the pair of side plate construction units H adjacent to each other in the front-rear direction. In other words, in the process for forming the side plate, the side plate construction unit H is arranged with a predetermined gap sk in the front-rear direction, and the embedded formwork U is arranged between the side plate construction units H. It has a process. The embedded formwork U is a second formwork panel u1 arranged between adjacent side plate forming members 1 on the outer air side and a second formwork U1 arranged between adjacent side plate forming members 2 on the inner air side. It includes a formwork panel u2 and a support frame u3 that supports the first and second formwork panels u1 and u2. The first and second formwork panels u1 and u2 are formed in a plate shape by, for example, high-strength fiber reinforced mortar.

In this embodiment, the plurality of side plate construction units H are installed with a gap sk of about 10 cm in the front-rear direction. Recessed portions 15 and 25 are formed on the front and rear end edges on the outer surface side of each side plate forming member 1 and 2. The buried formwork U is installed by being suspended from above so as to be engaged with the recessed portions 15 and 25, for example. Then, the first formwork panel u1 is arranged between the pair of recessed portions 15 in the side plate forming member 1 on the outer air side adjacent to the front and rear, and the second formwork panel u2 is adjacent to the front and back. It is arranged between a pair of recessed portions 25 in the side plate forming member 2 on the inner air side.

The support frame u3 that supports the first and second formwork panels u1 and u2, respectively, is movably supported with respect to one, that is, the second formwork panel u2. Therefore, after temporarily arranging the embedded formwork U at a predetermined position, by tightening the nut nt, the second formwork panel u2 is brought into close contact with the recessed portion 25 of the side plate forming member 2 on the inner air side. It can be arranged while being appropriately adjusted to the position.

In this embodiment, by interposing the embedded formwork U between the side slab construction units H arranged in the front-rear direction, it is possible to suitably absorb dimensional errors, installation position errors, etc. in the side slab construction unit H. It has become.

Reinforcing bars 3 and iron plates 3', which are support members, are interposed between the side plate forming members 1 and 2 on the outer air side and the inner air side in the side plate construction unit H.

Supporting means sh (hooks protruding in an L shape) capable of supporting the external force distribution muscles 4a and 4b from at least the lower side are provided on the inner surface sides of the side plate forming members 1 and 2 on the outer air side and the inner air side, respectively. It is provided. External force distribution muscles 4a and 4b can be placed on the support means sh. If such a support means sh is used, temporary fixing work by an operator is not required, so comparison is made at predetermined positions along the side plate forming members 1 and 2 on the outer air side and the inner air side. It is possible to easily set the external force distribution muscles 4a and 4b. For example, if the external force distribution bars 4a and 4b are inserted from the gable side (edge side), that is, the front side or the back side, and the external force distribution bars 4a and 4b are installed at predetermined positions on the support means sh, the first method is performed. It is possible to dispose the external force distribution bars 4a and 4b at predetermined positions without the need for a worker to enter the cast-in-place concrete arrangement space R1. The external force distribution bars 4a and 4b, which are reinforcing bars, can pass through the virtual boundary line ks between the side slab construction units H adjacent to each other in the front-rear direction, and are arranged in the cast-in-place concrete arrangement space R1. is there. The cast-in-place concrete is poured into the cast-in-place concrete arrangement space R1 and then hardened to form the cast-in-place slab component I.

For example, depending on the height direction dimension of the box culvert to be constructed, the first side plate construction unit and the second side plate construction unit may be integrated in advance to form a single side plate construction unit. Further, for example, a side plate construction unit constituting the side plate is provided by providing a third side plate construction unit between the first side plate construction unit and the second side plate construction unit in the vertical direction. It may be subdivided and configured. In other words, the side plate construction unit applied to the side plate construction method may be two or more stacked in the vertical direction.

Further, when the width direction (transverse direction) of the box culvert to be constructed is long, a wall or a pillar may be provided between the bottom slab and the top slab.

In addition, the specific configuration of each part is not limited to the above embodiment, and various modifications can be made without departing from the spirit of the present invention.

A ... Box Culvert B ... Bottom plate C ... Left and right side plates D ... Top plate H ... First side plate construction unit (side plate construction unit)
1 ... Side plate forming member on the outer air side (first side plate forming member)
2 ... Side plate forming member on the inner air side (second side plate forming member)
3 ... Multiple reinforcing bars (support members)
s3 ... Side plate construction unit installation process (first side plate construction unit installation process)
s5 ... Side plate placing process

Claims (8)

It is a method of constructing a box culvert having a bottom slab, left and right side slabs erected at both ends of the bottom slab, and a top slab erected between the upper ends of these left and right side slabs.
The left and right side slabs include a side slab construction unit and a cast-in-place side slab component formed by placing cast-in-place concrete in the cast-in-place concrete arrangement space provided in the side slab construction unit. Concrete
The side slab construction unit includes a first side slab forming member made of precast concrete, a second side slab forming member made of precast concrete, and these first side slab forming member and second side slab forming member. A support member for supporting the first side slab forming member and the second side slab forming member in a state where the cast-in-place concrete arrangement space is formed between the member and the side slab is provided. The process for forming is the side plate construction unit installation process for installing the side plate construction unit at a predetermined position, and after the side plate construction unit installation process, the site is placed in the concrete arrangement space of the side plate construction unit. It is equipped with a side slab placing process for placing cast concrete .
The side plate construction unit is supported by the support member so that the separation distance between the first side plate forming member and the second side plate forming member can be changed.
The support member is a plurality of reinforcing bars, one end of which is immovably embedded in the first side plate forming member and the other end of which is attached to the second side plate forming member. It is configured to be adjustable and
A screw groove is formed at the other end portion, and the second side plate forming member is attached to a predetermined position by an inner nut and an outer nut in a state of being inserted into a plurality of reinforcing bar insertion holes provided. method for constructing a box culvert, characterized in that there. The side slab construction unit forms the cast-in-place concrete arrangement space that communicates in the vertical direction.
The first side plate forming member has a plate shape and is located on the outer air side of the box culvert.
The method for constructing a box culvert according to claim 1, wherein the second side plate forming member has a plate shape and is located on the inner air side of the box culvert. The side plate construction unit installation step includes a step of arranging a plurality of the side plate construction units adjacent to each other in a direction in which the internal space of the box culvert communicates with each other.
The method for constructing a box culvert according to claim 1 or 2, wherein reinforcing bars capable of passing through a virtual boundary line between adjacent side slab construction units are arranged in the cast-in-place concrete arrangement space. The method for constructing a box culvert according to any one of claims 1 to 3, wherein the first side plate forming member and the second side plate forming member have a plate shape and are substantially parallel to each other. .. Any one of claims 1 to 4, wherein the side plate construction unit sets the lower end edge of the first side plate forming member and the lower end edge of the second side plate forming member at the same horizontal position. How to build a box culvert as described in. Any one of claims 1 to 4, wherein both or one of the first and second side slab forming members includes a reinforcing steel material that cantileverly protrudes in the cast-in-place concrete arrangement space. How to build a box culvert as described in. The method for constructing a box culvert according to any one of claims 1 to 5, wherein the support member is made of a single or a plurality of steel materials. A box culvert having a bottom slab, left and right side slabs erected at both ends of the bottom slab, and a top slab erected between the upper ends of these left and right side slabs.
The left and right side slabs include a side slab construction unit and a cast-in-place side slab component formed by placing cast-in-place concrete in the cast-in-place concrete arrangement space provided in the side slab construction unit. Concrete
The side slab construction unit is made of precast concrete and has a first side slab forming member, a second side slab forming member made of precast concrete, and these first side slab forming member and second side slab forming member. It is provided with a support member for supporting the first side slab forming member and the second side slab forming member in a state where the cast-in-place concrete arrangement space is formed between the members .
The side plate construction unit is supported by the support member so that the separation distance between the first side plate forming member and the second side plate forming member can be changed.
The support member is a plurality of reinforcing bars, one end of which is immovably embedded in the first side plate forming member and the other end of which is attached to the second side plate forming member. It is configured to be adjustable and
A screw groove is formed at the other end portion, and the second side plate forming member is attached to a predetermined position by an inner nut and an outer nut in a state of being inserted into a plurality of reinforcing bar insertion holes provided. It is box culvert.

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