JPH11247273A - Built-up concrete structure - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a built-up concrete structure reduced in the weight of members and easy to construct in a field. SOLUTION: This concrete structure is provided with a lateral pair of precast concrete-made side wall members 2, 2, a precast concrete-made top plate member 3 to which the upper parts of the side wall members 2, 2 are connected, a filling part 7 formed on the side wall part 2, a filled concrete 14 formed by allowing the filing part 7 to communicate with the upper part of the top plate member 3 and placing concrete thereto, and a bottom plate concrete 16 formed by placing concrete between the lower parts of the lateral side wall members 2, 2. The lateral side wall members 2,2 are arranged, the upper parts of the lateral side wall members 2, 2 are connected by the top plate member 3, concrete is placed to the filling part 7 and the upper part of the top plate member 3, and concrete is filled between the lower parts of the lateral side wall members 2, 2 to form a substantially square sectional structure 1.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a prefabricated concrete structure serving as a foundation for a box culvert or a bridge.

[0002]

Conventionally, as a substantially box-shaped concrete structure, a box culvert made on site or made of precast is known. Since it is necessary, it is generally inferior in workability. On the other hand, in the case of a precast product, work such as a formwork is not required, so that workability is excellent. However, in recent years, large box culverts have been used, and box culverts made of precast concrete have also been increased in size.

In order to solve such a problem,
Japanese Patent Publication No. 49-13533 discloses an assembly box culvert in which upper and lower blocks are tightened and joined by a tightening steel rod inserted into a vertical hole, and the plurality of blocks are tightened and integrated in a longitudinal direction by a connecting steel rod. Proposed and also
In Japanese Patent Publication No. 62-54937, a number of upper and lower halves are formed of prestressed concrete in which a top plate and a bottom plate are tensioned with widthwise PC steel, and these upper and lower halves are connected to a lower slab and an upper side. The recesses formed in the plate are connected by a PC steel material, and a passage for inserting a pull rod for applying a tension to the PC steel material is formed on a side wall of the upper half member. An underdrain block has been proposed in which a half member is fastened and fixed by longitudinally tightened PC steel in the longitudinal direction.

However, in the above-described assembled box culvert, the box culvert is divided into upper and lower parts, and a tightening steel rod is inserted into each of the vertical holes of the upper and lower blocks to be integrally tightened. If the position is not correct, the tightening steel bar cannot be inserted, and it takes time to assemble the upper and lower blocks.
There is a problem that it takes time to insert and tension the PC steel. Furthermore, since the total weight does not change even when divided into two, the hanging work during transportation and installation becomes complicated.
Further, in the case of using the U-shaped upper and lower blocks, it is difficult to perform size adjustment to match the dimensions of the site.

[0005] Therefore, an object of the present invention is to provide an assembling concrete structure which can reduce the weight of members and can be easily constructed on site.

[0006]

According to the present invention, a pair of left and right precast concrete side wall members, a precast concrete top plate member connecting the upper portions of the side wall members, and the side wall member are formed. And a filled concrete formed by casting concrete into the filled portion and connecting the side wall member and the top plate member.

According to the first aspect of the present invention, the left and right side wall members are arranged, the top plate member is arranged above the left and right side wall members, and the concrete is filled to form a structure. As described above, since the side wall member and the top plate member are formed in combination, each member is lightweight, easy to transport and install, and a desired structure can be obtained by adjusting the dimensions of each member. Can be

The invention according to claim 2 is provided with a bottom slab concrete formed by casting concrete between lower portions of the left and right side wall members.

According to the second aspect of the present invention, the left and right side wall members are disposed, the top plate member is disposed above the left and right side wall members, and the concrete is filled to form a structure. As described above, since the side wall member and the top plate member are formed in combination, each member is lightweight, easy to transport and install, and a desired structure can be obtained by adjusting the dimensions of each member. Can be Furthermore, since the bottom slab is formed of cast-in-place concrete, it is easy to cope with irregularities in the installation location.

Further, in the invention according to claim 3, the filled concrete is formed continuously on the filling portion and the upper portion of the top plate member.

According to the third aspect of the present invention, the left and right side wall members are arranged, concrete is cast on the filling portion and the upper portion of the top plate member, and the upper portions of the left and right side wall members are fixed by the top plate member. Concrete is filled between the lower portions of the left and right side wall members to form a box-shaped structure. As described above, since the side wall member and the top plate member are formed in combination, each member is lightweight, easy to transport and install, and a desired structure can be obtained by adjusting the dimensions of each member. Can be further,
When the bottom plate is provided, since the bottom plate is formed of cast-in-place concrete, it is easy to cope with unevenness of the installation location. Moreover, since concrete is cast on the upper part of the top plate member, its thickness can be appropriately changed.

Further, the invention according to claim 4 is characterized in that the filling portion is formed between an outer wall portion and an inner wall portion lower than the outer wall portion while the upper portion is open, and the top plate member is provided above the inner wall portion. Is provided with a fixing member for fixing the end portion of the first member.

According to the structure of the fourth aspect, the top plate member is fixed to the side wall member by the fixing member, and the side wall member and the top plate member can be assembled in a gate shape.

Further, according to a fifth aspect of the present invention, the filling portion has an opening at an upper portion, is formed between an outer wall portion and an inner wall portion, and forms a connecting wall portion between the outer wall portion and the inner wall portion. ,
A duct for inserting a reinforcing bar in the front-rear direction is formed on the connecting wall.

According to the fifth aspect of the present invention, the reinforcing members are inserted into the ducts of the side wall members arranged in the length direction, and the filling portion is filled with concrete, whereby the side wall members are integrated in the length direction. Can be.

Further, according to the invention of claim 6, the top plate member is formed with a recess having an open upper portion, and the recess is filled with a filling member which is lighter than the filling concrete.

According to this configuration, the top plate member can be reduced in weight by forming the concave portion, and by filling the concave portion with a filling member lighter than concrete, the top plate member can be made of concrete. Usage can be reduced.

[0018]

The first embodiment of the present invention will be described below with reference to the accompanying drawings. As shown in FIGS. 1 to 6,
The concrete structure 1 includes left and right side wall members 2 and 2 made of precast concrete, and a top plate member 3 made of precast concrete connecting upper portions of the side wall members 2 and 2.
And

The side wall member 2 has an inner wall portion 4 and an outer wall portion 5 formed higher than the inner wall portion 4, and a substantially center of the inner wall portion 4 and the outer wall portion 5 is connected by a connecting wall portion 6. A filling section 7 having an open top is provided before and after the connecting wall section 6. The filling portion 7 is formed to be slightly enlarged outward in the front-rear direction as shown in FIG. Further, an inner side surface 4A of the inner wall portion 4 is formed in a curved shape. Further, a leg 8 projecting inward is provided at a lower portion of the side wall member 2.
Is formed, and as shown in FIG.
Are provided with a plurality of reinforcing bar insertion ducts 9 arranged side by side.

As shown in FIG. 3, the top plate member 3 has a substantially U-shaped cross section with an open upper portion, and a recess 10 is formed over substantially the entire length in the left-right length direction. Is filled with a foamable synthetic resin lighter than concrete. Examples of the foamable synthetic resin include foamed polystyrene, foamed polyethylene, foamed polypropylene, and foamed urethane. In the embodiment, the block 10A of the foamed polystyrene is filled in the recess 10, and the block 10A forms a filling member. ing. Further, there are provided mounting portions 11, 11 which are formed on both sides in the left-right direction of the top plate member 3 so as to be substantially obliquely downward and are mounted on the upper surface of the inner wall portion 4.
A is formed in a curved shape that is continuous with the inner surface 4A. Further, a flat surface 11B is formed on the upper surface of the mounting portion 11, and the flat surface 11B and the upper portion of the inner wall surface 4 are fixed by anchor bolts 12 as fixing means. further,
A reinforcing bar 13 is embedded in the leg 8, and a tip 13 A of the reinforcing bar 13 is provided.
Are protruded inward from the inner ends of the legs 8. In addition, rebar 13
Has reached the inside of the outer wall portion 5. Also, the inner wall 4
The outer wall portion 5 is formed higher than the upper surface of the top plate member 3 in a state where the top plate member 3 is fixed.

Numeral 14 denotes a filling concrete which is continuously cast on the filling portion 7 and the top of the top plate member 3. In this example, the filling concrete is filled on the upper front surface of the top plate member 3, and Inside, a substantially L-shaped reinforcing bar 15 is embedded over the filling portion 7 and the top of the top plate member 3. In the figure, 16 is
The bottom slab concrete 17 formed by cast-in-place concrete is a reinforcing bar inserted into the duct 9.

Next, a method of constructing the above-mentioned structure will be described.
2 is erected. In this case, since the side wall member 2 has the legs 8, the side wall members 2 have self-sustainability and are excellent in stability, and the portion on which the legs 8 are placed may be leveled or finished with discarded concrete or the like. . Next, the top plate member 3
Is lifted, and the mounting portions 11, 11 on the inner wall portions 4, 4 of the left and right side wall members 2, 2 are mounted and fixed by the anchor bolts 12, 12. In this case, the block 10A is
And then lifted. Also,
After assembling the side wall member 2 and the top plate member 3, the reinforcing bar 15 is disposed over the top of the filling portion 7 and the top of the top plate member 3. Similarly, a plurality of side wall members 2 and a top plate member 3 are assembled,
The reinforcing bars 17 in the longitudinal direction are inserted and arranged in the ducts 9 arranged in the longitudinal direction and adjacent in the longitudinal direction. Thus, the side wall member 2
Are arranged in the length direction, as shown in FIG. 5, the opening portions in the length direction of the adjacent filling portions 7, 7 are closed. further,
If necessary, a reinforcing bar 21 is arranged above the top slab member 3 and a reinforcing bar 22 is arranged above the bottom slab 16.
Then, concrete is cast on the filling portion 7 and the top of the top plate member 3 to form a filled concrete 14, and the side wall member 2 and the top plate member 3 are formed by the filled concrete 14 and the reinforcing bar 15 buried inside. Strongly integrated and rebar 15
Thereby, the side wall members 2 are integrated in the length direction. In this case, since the outer wall portion 5 replaces the formwork, the formwork work at the site becomes unnecessary, and concrete is poured into a desired height to form the top plate member 3 and the filled concrete 14. The combined thickness can be set as appropriate. Also, the side wall member 2,
Concrete is poured between the lower portions of the side walls 2 to form bottom slab concrete 16, and the lower portions of the side wall members 2, 2 are firmly connected by the bottom slab concrete 16 and the reinforcing bar 13 buried inside. When the structure 1 is used as a box culvert or the like, a pavement (not shown) is formed on the bottom slab concrete 16, and when the structure 1 is used for a small bridge or the like, a pavement (not shown) on the filled concrete 14 is provided. ).
The structure 1 is a box culvert buried in the embankment or underground.

Since the side wall member 2 and the top plate member 3 are assembled on site in this way, it is advantageous to manufacture a product tailored to the site. First, since the top plate member 3 has the same cross section on the center side, it is easy to manufacture the product dimensions in the left-right length direction by extending the same cross section. Also,
By extending the straight portion S at the center of the inner side surface 4A of the side wall member 3, it is easy to adjust the height of the product. Thus, the top plate member 3 having a desired left and right length and the desired By combining the side wall members 2 having a height dimension, structures 1 of various sizes can be easily constructed.

As described above, in the present embodiment, the left and right pair of precast concrete side walls 2 and 2 and the precast concrete top connecting the upper portions of the side wall members 2 and 2 correspond to the first aspect. It comprises a plate member 3, a filling portion 7 formed in the side wall member 2, and a filling concrete 14 formed by casting concrete into the filling portion 7 and fixing the top plate member 3 to the side wall member 2. And the left and right side wall members 2, 2 are arranged.
Since the top plate member 3 is arranged on the upper part of the bridge 2 and filled with the filling concrete 14, the portal-type structure 1 can be formed. Thus, the side wall member 2 and the top plate member 3 are formed in combination. The members 2 and 3 are lightweight, easy to transport and install, and a desired structure can be obtained by adjusting the dimensions of the members 2 and 3.

Further, as described above, in this embodiment, claim 2
The bottom slab concrete 16 is formed by casting concrete between the lower parts of the left and right side wall members 2 and 2, so that the left and right side wall members 2 and 2 are arranged and The top plate member 3 is arranged above the side wall members 2 and 2,
The filled concrete 14 can be filled to form a structure having a substantially rectangular cross section, and thus the side wall member 2 and the top plate member 3 can be formed.
The members 2 and 3 are lightweight, easy to carry and install, and a desired structure can be obtained by adjusting the dimensions of the members 2 and 3.
Furthermore, since the bottom slab is formed of cast-in-place concrete, it is easy to cope with irregularities in the installation location. That is, the leveling operation can be simplified between the legs 8.

Furthermore, in the present embodiment, the filling concrete 14 is formed continuously on the filling portion 7 and the upper portion of the top plate member 3 according to the third aspect. The side wall members 2 and 2 are arranged, the upper portions of the left and right side wall members 2 and 2 are connected by the top plate member 3, and concrete is cast on the filling portion 7 and the upper portion of the top plate member 3, and , 2 can be filled with concrete to form a structure 1 having a substantially rectangular cross section. In this manner, the side wall members 2, 2 and the top plate member 3 are formed in combination. 3 is lightweight, easy to transport and install, and by adjusting the dimensions of the members 2 and 3, a desired structure 1 can be obtained. The thickness can be changed as appropriate. In addition, since the bottom slab is formed from cast-in-place concrete, it is easy to deal with irregularities in the installation location.

As described above, according to the present embodiment, claim 4
In response to the above, the filling portion 7 is formed between the outer wall portion 5 and the inner wall portion 4 lower than the outer wall portion 5 while the upper portion is opened, and the end portion of the top plate member 3 is provided above the inner wall portion 4. Since the top plate member 3 is fixed to the side wall member 2 with the anchor bolts 12, the top plate member 3 is fixed to the side wall member 2 and the top plate members 3 and 3 by using the anchor bolt 12. Can be assembled.

As described above, according to the present embodiment, claim 5
In response to the above, the filling part 7 is formed between the outer wall part 5 and the inner wall part 6 while the upper part is opened, and the outer wall part 5 and the inner wall part 4 are formed.
Since the connecting wall portion 6 is formed between the connecting wall portions 6 and the duct 9 for inserting the reinforcing bar in the front-rear direction is formed on the connecting wall portion 6, the reinforcing bar 18 is inserted into the duct 9 of the side wall member 2 arranged in the longitudinal direction. And
By filling the filling portion 7 with concrete, the side wall members 2, 2,... Can be integrated in the length direction.

As described above, according to the present embodiment, claim 6
Accordingly, the top plate member 3 is formed with a recess 10 having an open upper portion, and the recess 10 is filled with a block 10A which is a lighter filling member than the filling concrete 14. Is formed, the top plate member 3 can be reduced in weight, and the concave portion 10 has a block 10A made of styrene foam or the like as a filling member lighter than concrete.
Filling can reduce the amount of concrete used.

Further, as an effect on the embodiment, by using a foamable synthetic resin as the filling member, a light weight and a predetermined strength can be obtained. Further, since the side wall member 2 is provided with the wide leg portion 8 in the left-right direction, the side wall member 2 has autonomy and is excellent in stability at the time of temporary installation or the like. The filling section 7
Since the reinforcing bar 15 is arranged over the upper portion of the top plate member 3 and the upper portion of the top plate member 3, the top plate member 3 and the side wall member 2 can be integrated. The side wall member 2 has a reinforcing bar 13 whose tip 13A projects inward.
Since the slabs are buried, integration with the cast-in-place bottom slab concrete 16 is achieved. Furthermore, since the side wall member 2 is provided with the legs 8 wider than the upper part, the stability at the time of installation is excellent.

FIG. 7 shows a second embodiment of the present invention. The same parts as those in the first embodiment are denoted by the same reference numerals, and the detailed description thereof will be omitted. The tip 31A of the reinforcing bar 31 buried in 3 is formed so as to be inserted into the filling portion 7. Thus, the reinforcing bar 31 is attached in advance at a factory, and the tip 31A of the reinforcing bar 31 is inserted into the filling portion 7. By forming the filled concrete 14 after the arrangement, the reinforcing work on site can be reduced.

FIG. 8 shows a third embodiment of the present invention. The same parts as those in the above embodiments are designated by the same reference numerals, and detailed description thereof will be omitted. The bottom slab concrete 16 is not provided.
Is not provided. When the ground on which the side wall member 2 is installed is solid or when a bridge is formed in which the upper part of the top plate member 3 is a passage or the like, it is not necessary to provide the bottom slab concrete 14 in this way.

As described above, in the present embodiment, the left and right pair of precast concrete side walls 2 and 2 and the precast concrete top connecting the upper portions of the side walls 2 and 2 correspond to the first aspect. It comprises a plate member 3, a filling portion 7 formed in the side wall member 2, and a filling concrete 14 formed by casting concrete into the filling portion 7 and fixing the top plate member 3 to the side wall member 2. And the left and right side wall members 2, 2 are arranged.
Since the top plate member 3 is arranged on the upper part of the bridge 2 and filled with the filling concrete 14, the portal-type structure 1 can be formed. Thus, the side wall member 2 and the top plate member 3 are formed in combination. The members 2 and 3 are lightweight, easy to transport and install, and a desired structure can be obtained by adjusting the dimensions of the members 2 and 3. In addition, in this example, the same operation as in the first embodiment,
It works.

FIG. 9 shows a fourth embodiment of the present invention. The same parts as those in the above embodiments are denoted by the same reference numerals, and detailed description thereof will be omitted. Are formed in an arch shape, and the top plate member 3 has no recess 10 formed therein. If the structure 1 having such an arched top plate member 3 is used for a box culvert, the internal space can be made larger by the arched shape, the strength can be improved, and the soil to be buried in the upper part can be further improved. The amount can be reduced.

As described above, in this embodiment, the left and right pair of precast concrete side walls 2 and 2 and the precast concrete arch connecting the upper portions of the side walls 2 and 2 correspond to the first aspect. Mold top plate member 3
And a filling portion 7 formed in the side wall member 2, and the filling portion 7
And a filling concrete 14 formed by casting concrete on the side wall member 2 and fixing the top plate member 3 to the side wall member 2.
A bottom slab concrete 16 formed by casting concrete between the lower portions of the slab.
The left and right side wall members 2, 2 are arranged, and the upper portions of the left and right side wall members 2, 2 are connected by the top plate member 3, so that the filling portion 7 and the top plate are formed. Member 3
Concrete is poured on the upper part of the right and left side wall members 2, 2
Can be formed by filling concrete between the lower portions of the members 1 and 2 so that the side wall members 2 and 2 and the top plate member 3 are combined.
3 is lightweight, easy to carry and install, and by adjusting the dimensions of each member 2, 3
Can be obtained. Further, since concrete is cast on the top of the top plate member 3, its thickness can be appropriately changed. Also, since the bottom slab is formed by cast-in-place concrete,
It is easy to respond to irregularities in the installation location. In addition, also in this example, the same operations and effects as those of the first embodiment are provided, corresponding to the fourth and fifth aspects.

FIGS. 10 and 11 show a fifth embodiment of the present invention, in which the same reference numerals are given to the same parts as those in the above embodiments, and the detailed description thereof will be omitted. Forming mutually engaging step portions 32 on the front and rear surfaces of the member 2,
These steps 32, 32 are filled with joint material 33 such as mortar. A gap M is formed between the steps 32 in the left-right direction.

As described above, the step portion 32 is formed at the end in the front-rear direction of the side wall member 2, and the joint portion 33 between the adjacent side wall members 2, 2 is filled with the joint material 33, so that the structure 1 is formed into a plane curved shape. It becomes possible to construct.

The present invention is not limited to the above-described embodiment. For example, the tip 13A of the reinforcing bar 13 may be located at a position below the side wall member 2 and buried in the bottom slab concrete 16. Further, the left and right reinforcing bars 15 may be formed integrally, or the left and right reinforcing bars 15 may be connected by the reinforcing bar 21. Furthermore, the tips 13A, 13A of the left and right reinforcing bars 13, 13 are
The connection may be made by 22.

[0039]

According to the first aspect of the present invention, there is provided a pair of left and right precast concrete side wall members, a precast concrete top plate member connecting upper portions of the side wall members, and a filling portion formed in the side wall member. And a filling concrete formed by casting concrete in the filling portion and fixing a top plate member to the side wall member,
It is possible to provide an assembling-type concrete structure that can reduce the weight of members and is easy to perform on-site.

Further, the invention according to claim 2 is provided with a bottom slab concrete formed by casting concrete between the lower portions of the left and right side wall members, thereby reducing the weight of the members and facilitating on-site construction. It is possible to provide a simple prefabricated concrete structure.

Further, in the invention according to claim 3, the filled concrete is formed continuously on the filling portion and the upper portion of the top plate member, so that the member can be reduced in weight and the on-site construction is easy. A prefabricated concrete structure can be provided.

Further, according to a fourth aspect of the present invention, the filling section includes:
An upper part is opened, and a fixing member is formed between the outer wall part and the inner wall part lower than the outer wall part and fixes an end of the top plate member on the upper part of the inner wall part. It is possible to provide a prefabricated concrete structure that is lightweight and can be easily constructed on site.

Also, in the invention according to claim 5, the filling portion is:
An upper portion is opened, and formed between an outer wall portion and an inner wall portion, a connecting wall portion is formed between the outer wall portion and the inner wall portion, and a duct for reinforcing bar insertion in the front-rear direction is formed on the connecting wall portion. In addition, it is possible to provide an assembling concrete structure that can reduce the weight of members and can be easily installed on site.

According to a sixth aspect of the present invention, in the top plate member, a recess having an open upper portion is formed, and the recess is filled with a filling member which is lighter than the filling concrete. It is possible to provide a prefabricated concrete structure that is lightweight and can be easily constructed on site.

[Brief description of the drawings]

FIG. 1 is a sectional view of a structure showing a first embodiment of the present invention.

FIG. 2 is a sectional view taken along line AA of FIG. 1 showing the first embodiment of the present invention.

FIG. 3 is a sectional view taken along line BB of FIG. 1 showing the first embodiment of the present invention.

FIG. 4 is a front view of a side wall member and a top plate member showing the first embodiment of the present invention.

FIG. 5 is a partially cutaway perspective view of the structure showing the first embodiment of the present invention.

FIG. 6 is a cross-sectional view showing a first embodiment of the present invention and showing a periphery of a side wall member whose dimension is extended only by a straight line portion S;

FIG. 7 is a sectional view of a structure showing a second embodiment of the present invention.

FIG. 8 is a sectional view of a structure showing a third embodiment of the present invention.

FIG. 9 is a sectional view of a structure showing a fourth embodiment of the present invention.

FIG. 10 is a sectional view of a side wall member showing a fifth embodiment of the present invention.

FIG. 11 is a sectional view of a step portion of a side wall member showing a sixth embodiment of the present invention.

[Explanation of symbols]

 2 Side wall member 3 Top plate member 6 Connecting wall part 7 Filling part 10 Concavity 10A Block (filling member) 12 Anchor bolt (fixing member) 14 Filling concrete 16 Bottom concrete

Claims (6)

[Claims] 1. A left-right pair of precast concrete side wall members, a precast concrete top plate member connecting upper portions of these side wall members, a filling portion formed in the side wall member, and a concrete portion formed in the filling portion. And a filled concrete for fixing the top plate member to the side wall member. 2. The prefabricated concrete structure according to claim 1, further comprising a bottom slab concrete formed by casting concrete between lower portions of the left and right side wall members. 3. The prefabricated concrete structure according to claim 1, wherein the filled concrete is formed continuously on the filling portion and an upper portion of the top plate member. 4. The filling part has an upper part opened,
Formed between the outer wall and the inner wall lower than the outer wall,
The assembly type concrete structure according to any one of claims 1 to 3, further comprising a fixing member that fixes an end of the top plate member on an upper portion of the inner wall portion. 5. The filling part has an upper part opened,
The connecting wall portion is formed between the outer wall portion and the inner wall portion, a connecting wall portion is formed between the outer wall portion and the inner wall portion, and a duct for inserting a reinforcing bar in the front-rear direction is formed on the connecting wall portion. 1 to
5. The prefabricated concrete structure according to any one of items 4 to 5. 6. The method according to claim 1, wherein the top plate member has a recess having an open upper portion, and the recess is filled with a filling member lighter than the concrete filling. 2. The prefabricated concrete structure according to claim 1.