JP7124470B2 - Reinforcing bar fixtures and foundation structures of buildings - Google Patents

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a reinforcing bar fixing body and a building foundation structure including the same.

Reinforcing bar fixtures are used in various fields. For example, Patent Literature 1 discloses a steel frame member (1) including a reinforcing bar fixture used in the foundation structure of a building. This steel frame member (1) comprises an H-section steel (4), mesh bars (7) welded to the H-section steel (4), and concrete (C) provided so as to cover the mesh bars (7). Concrete (C) is joined to H-beam (4) via mesh bars (7).

JP-A-10-196046

In the steel frame member (1) of Patent Literature 1, the H-shaped steel (4) and the mesh bar (7) are joined by welding, so the work of joining them is complicated.

(1) A reinforcing bar fixing body according to the present invention is a reinforcing bar fixing body that is installed in the ground and supports a steel foundation beam, and comprises a pair of bases, a connecting part that connects the pair of bases, and a and a support for supporting the rebar.
According to the reinforcing bar fixing body, the connecting part and the reinforcing bar can be easily connected by the supporting part.

(2) In a preferred example, in the reinforcing bar fixing body according to (1), the support section includes an insertion section into which the reinforcing bar is inserted.
Therefore, the reinforcing bars can be easily supported.

(3) As a preferred example, in the reinforcing bar fixing body according to (2), the insertion portion includes a groove that slopes downward toward the connecting portion from the outside.
Since the reinforcing bar does not easily come out of the groove, the reinforcing bar is maintained in a state of being supported by the supporting portion.
(4) A building foundation structure according to the present invention includes the reinforcement fixing body according to any one of (1) to (3).
According to the foundation structure of the building, the same effect as the effect obtained by the above (1) reinforcing bar fixing body can be obtained.

(5) In a preferred example, the foundation structure of the building described in (4) is provided with a decorative formwork covering the outer peripheries of the steel foundation beams and the supporting steel materials.
Therefore, the aesthetic appearance of the building including the foundation structure is enhanced.

(6) In a preferred example, in the building foundation structure described in (5), the decorative formwork is a mesh formwork.
Therefore, the finishing layer can be easily formed on the surface of the decorative mold.

(7) In a preferred example, in the building foundation structure described in (5) or (6), the reinforcing bar fixing body is positioned outside the outer end of the support part with respect to the connecting part, and the decorative It has a restrictor that comes into contact with the formwork.
Therefore, the decorative formwork is less likely to come into contact with the supporting portion.

According to the reinforcing bar fixing body of the present invention and the foundation structure of the building provided with the same, the reinforcing bars can be easily connected.

Sectional drawing of the basic structure of the building of 1st Embodiment. 2 is a plan view of the foundation structure of FIG. 1; FIG. FIG. 2 is a front view of the steel foundation beam of FIG. 1; FIG. 2 is a front view of an opening in the steel foundation beam of FIG. 1; FIG. 2 is an exploded perspective view of the steel foundation beam, formwork support member, and decorative formwork of FIG. 1 ; FIG. 2 is a perspective view of the supporting steel material of FIG. 1; The figure regarding the 1st process of the construction method of a foundation structure. The figure regarding the 3rd process - the 5th process of the construction method of a foundation structure. The figure regarding the 7th process and the 8th process of the construction method of a foundation structure. Sectional drawing of the basic structure of the building of 2nd Embodiment.

(First embodiment)
A building foundation structure 10 on which a building body 100 is installed will be described with reference to FIG. The foundation structure 10 and the building body 100 constitute a building 200 . The foundation structure 10 is installed on the ground G so as to straddle the ground level GL in the vertical direction. 2 to 4, illustration of the building body 100 is omitted for simplification of the drawings.

The building body 100 is, for example, a store, an individual house, or an apartment complex. The store is, for example, a low-side store. A low-side store is, for example, a convenience store. The building body 100 includes a skeleton 110 and an outer wall 120 . The main elements constituting the foundation structure 10 are a concrete foundation 20, steel foundation beams 30, a plurality of reinforcing bar fixing bodies 70, and down foundation beams 90 (see FIG. 4). The concrete foundation 20 and the steel foundation beams 30 are connected by a plurality of reinforcing bar fixing bodies 70 and down foundation beams 90 . The frame 110 is joined to the steel foundation beams 30 by bolts 130 . The outer wall 120 covers the skeleton 110 .

The material constituting the concrete foundation 20 is strongly alkaline concrete. A concrete foundation 20 is formed on the auxiliary layer 11 . An upper portion 21 of the concrete foundation 20 is located above the ground level GL. Auxiliary layers 11 are formed as needed to aid in the manufacture of the concrete foundation 20 . The structure of the auxiliary layer 11 is, for example, a crushed stone layer or a crushed stone layer and a lay concrete layer. The upper surface 11A of the crushed stone layer is formed so as to be flush with each other by rolling compaction. Steel foundation beams 30 are coupled with reinforcing bar fixtures 70 .

A panel-shaped decorative formwork 80 is installed on the outer periphery of the steel foundation beam 30 and the reinforcing bar fixing body 70 . The decorative formwork 80 constitutes the appearance of the building body 100 together with the outer wall 120 of the building body 100 . Therefore, the appearance of the building 200 including the foundation structure 10 is enhanced. Also, the decorative formwork 80 functions as a formwork when forming the concrete foundation 20 . The material that constitutes the decorative formwork 80 can be arbitrarily selected. One example is a ceramic panel. A ceramic panel is, for example, a siding panel. The decorative formwork 80 is provided so that the lower part 81 is located below the ground level GL.

As shown in FIG. 2 , the steel foundation beam 30 is composed of a plurality of beam steel materials 40 . The overall shape of the steel foundation beam 30 is determined according to the structure of the building body 100 . The beam steel material 40 is supported by a plurality of reinforcing bar fixing bodies 70 . In one example, a plurality of reinforcing bar fixing bodies 70 are installed along the longitudinal direction of the steel foundation beam 30 . Therefore, the reinforcing bar fixing body 70 can be easily installed on the ground G. A predetermined interval is provided between the reinforcing bar fixing bodies 70 adjacent to each other in the longitudinal direction of the steel foundation beam 30 . Therefore, the number of reinforcing bar fixing bodies 70 can be reduced.

The kind of beam steel material 40 can be selected arbitrarily. In the example shown in FIG. 1 and the like, the types of all the beam steel materials 40 are H-section steel. Therefore, the cross-sectional efficiency of the steel foundation beam 30 is increased. In another example, the types of beam steel 40 are channel steel, I-beam, T-beam, and prism steel. Channels are classified as regular channels, lightweight channels and lip channels. As shown in FIG. 1, the steel beam 40 is composed of a first flange 41, a second flange 42 and a web 43. As shown in FIG. The beam steel material 40 is formed with a recess 44 surrounded by an inner surface 41A of the first flange 41, an inner surface 42A of the second flange 42, and web surfaces 43A and 43B of the web 43. As shown in FIG. The outer surface 41B of the first flange 41 contacts the reinforcing bar fixture 70 . The outer surface 42 B of the second flange 42 contacts the building body 100 .

As shown in FIG. 1 or FIG. 5, a form support member 50 for supporting a decorative form 80 is attached to one web surface 43A. A plurality of form support members 50 are provided at predetermined intervals along the longitudinal direction of the beam steel material 40 . The configuration of the form support member 50 can be selected arbitrarily. In one example, the form support members 50 are H-beams. The formwork support member 50 is composed of a first flange 51 , a second flange 52 and a web 53 . The first flange 51 is joined with one web surface 43A of the beam steel 40 . The connecting means between the first flange 51 and one web surface 43A can be selected arbitrarily. In a first example, the connecting means between the first flange 51 and one web surface 43A are bolts and nuts. In the second example, the connecting means between the first flange 51 and one web surface 43A is welding. The second flange 52 is joined with the decorative formwork 80 . In the example shown in FIG. 5 and the like, the connecting means between the second flange 52 and the decorative formwork 80 are screws. A stiffener 45 (see FIG. 1) is provided on the other web surface 43B. In one example, the stiffener 45 is provided on the other web surface 43B at a portion corresponding to the lower portion of the bearing wall (not shown) of the building body 100 .

The type of reinforcing bar fixing body 70 can be selected arbitrarily. In the examples shown in FIG. 1, FIG. 6, etc., the type of all reinforcing bar fixing bodies 70 is H-section steel. In another example, the types of rebar fixtures 70 are channel steel, I-beam, T-beam, and prismatic steel pipe. It is preferable that the type of reinforcing bar fixing body 70 is the same as the type of beam steel material 40 . Therefore, the productivity of the base structure 10 is improved.

As shown in FIG. 1 or FIG. 6 , the reinforcing bar fixing body 70 is composed of a pair of bases 71 and 72 and a connecting portion 73 connecting the pair of bases 71 and 72 . A pair of bases 71 and 72 are flanges of the reinforcing bar fixing body 70 . The connecting portion 73 is the web of the reinforcing bar fixture 70 . A recess 74 surrounded by an inner surface 71 A of the first base portion 71 , an inner surface 72 A of the second base portion 72 , and a web surface 73 A of the connecting portion 73 is formed in the reinforcing bar fixing body 70 . The second base portion 72 is coupled with the first flange 41 of the beam steel 40 by, for example, bolts and nuts. The second base portion 72 of the reinforcing bar fixing body 70 and the first flange 41 of the steel beam 40 are provided with a plurality of holes (not shown) into which bolts are inserted. The outer surface 71B of the first base 71 contacts the auxiliary layer 11 . The outer surface 72B of the second base portion 72 contacts the outer surface 41B of the first flange 41 of the beam steel 40 . A stiffener 75 is provided on the other web surface 73B. In one example, the stiffener 75 is provided on the other web surface 73B at a portion corresponding to the lower portion of the bearing wall (not shown) of the building 200 .

As shown in FIG. 6, the reinforcing bar fixture 70 is provided with a support portion 61 that supports the reinforcing bar 300 (see FIG. 3) and an angle 62 that contacts the lower portion 81 (see FIG. 1) of the decorative formwork 80. . The support portion 61 is provided so that the reinforcing bar 300 can be attached to the reinforcing bar fixing body 70 without welding. The connecting portion 73 and the reinforcing bar 300 can be easily connected by the supporting portion 61 . The reinforcing bars 300 are, for example, mesh bars. A material forming the support portion 61 is a steel plate. The configuration of the support portion 61 can be arbitrarily selected. In the first example shown in FIG. 6 and the like, the support portion 61 is a plate provided on one web surface 73A of the connecting portion 73 . In the second example, the support portion 61 is provided on one web surface 73A of the connecting portion 73 and is a hook capable of hooking the reinforcing bar 300 thereon. Welding is used as a connecting means between the support portion 61 and one web surface 73A.

The support portion 61 is provided with an insertion portion 61A into which the reinforcing bar 300 is inserted. Therefore, the reinforcing bars 300 can be joined more easily. The insertion portion 61A is, for example, a groove or hole. In the example shown in FIG. 6 and the like, the insertion portion 61A is a groove. The number of insertion portions 61A provided in the support portion 61 is one or more. In the example shown in FIG. 6 and the like, the support portion 61 is provided with two insertion portions 61A into which the reinforcing bars 300 are inserted. The two insertion portions 61A are inclined downward from the outer side of the reinforcing bar fixing body 70 toward the connecting portion 73 . Since the reinforcing bar 300 is difficult to come off from the insertion portion 61A, the state in which the reinforcing bar 300 is supported by the support portion 61 is maintained. One ends 61AX of the two insertion portions 61A are open. Therefore, the reinforcing bar 300 can be easily inserted into the insertion portion 61A. The other ends 61AY of the two insertion portions 61A are closed. Therefore, the state in which the reinforcing bar 300 is supported by the support portion 61 is easily maintained.

The angle 62 restricts movement of the decorative formwork 80 toward the reinforcing bar fixing body 70 in the width direction of the reinforcing bar fixing body 70 due to the lateral pressure of the soil. The width direction of the reinforcing bar fixing body 70 is the direction along the lateral direction of each of the bases 71 and 72 . One or more angles 62 are provided. In the example shown in FIG. 6 and the like, two angles 62 are provided on the reinforcing bar fixing body 70 . The material forming the angle 62 is a steel plate. Angle 62 is welded to inner surface 71A of first base 71 . The shape of the angle 62 can be chosen arbitrarily. In the example shown in FIG. 6 and the like, the angle 62 includes a connecting portion 62A and a restricting portion 62B. The connecting portion 62A and the restricting portion 62B are portions divided by bending one plate. The connection portion 62A extends parallel to each base portion 71,72. The restricting portion 62B extends parallel to the connecting portion 73. As shown in FIG. The restricting portion 62B is located outside the outer end portion of the support portion 61 with respect to the connecting portion 73 and contacts the decorative formwork 80 .

As shown in FIG. 2 or FIG. 4, the steel foundation beam 30 has an opening 31 formed in a portion where an entrance (not shown) of the building 200 is provided. The down foundation beam 90 supports the beam steel material 40 of the steel foundation beam 30 at the opening 31 . Therefore, the strength of the steel foundation beam 30 at the opening 31 is increased. The opening 31 can also be provided in a portion of the building 200 corresponding to the partition.

The down foundation beam 90 is made of steel material 90A. The kind of steel material 90A can be selected arbitrarily. In the example shown in FIG. 4 and the like, the type of steel material 90A is H-section steel. In another example, the types of steel 90A are channel steel, I-beam, T-beam, and prismatic steel pipe. The type of the steel material 90A is preferably the same as at least one of the type of the beam steel material 40 and the type of the reinforcing bar fixing body 70 . Therefore, the productivity of the base structure 10 is improved. The steel material 90A is composed of a first flange 91, a second flange 92, and a web 93. As shown in FIG. A recess 94 surrounded by the inner surface 91A of the first flange 91, the inner surface 92A of the second flange 92, and the web surface 93A of the web 93 is formed in the steel material 90A. The outer surface 91B of the first flange 91 contacts the auxiliary layer 11 . The outer surface 92B of the second flange 92 contacts the outer surface 41B of the first flange 41 of the beam steel 40 . The position of the top surface of the down foundation beam 90 and the position of the top surface of the reinforcing bar fixing body 70 (see FIG. 1) in the height direction of the foundation structure 10 are substantially equal. The top surface of the down foundation beam 90 is the outer surface 92B of the second flange 92 . The position of the top surface of the reinforcing bar fixing body 70 is the outer surface 72B of the second base portion 72 . For this reason, it is possible to achieve a fit that does not cause straddling at the doorway or partition of the building 200 . As shown in FIG. 2 , the longitudinal dimension LA of the steel material 90A is longer than the longitudinal dimension LB of the reinforcing bar fixture 70 . Therefore, the strength of the steel foundation beam 30 in the opening 31 is further enhanced.

An example of a construction method for the foundation structure 10 will be described with reference to FIGS. 7 to 9. FIG. The construction method of the foundation structure 10 includes first to ninth steps. The first step is an example of a root cutting step. The third step is an example of the installation step. The fifth step and sixth step are examples of the beam connecting step.

As shown in FIG. 7, an excavated trench GA is formed in the ground G in the first step. In the second step, a crushed stone layer or a crushed stone layer and a waste concrete layer is formed as an auxiliary layer 11 on the excavated bottom GB of the excavated groove GA. The surface of the crushed stone layer is rolled by a rolling compactor. As shown in FIG. 8 , in the third step, a plurality of reinforcing bar fixtures 70 are placed on the auxiliary layer 11 . In the fourth step, the reinforcing bar 300 is inserted into the insertion portion 61A of the support portion 61 . In the fifth step, the beam steel material 40 to which the form support member 50 is coupled is placed on the second base portion 72 of the reinforcing bar fixing body 70 . In the sixth step, the first flange 41 of the beam steel material 40 and the second base portions 72 of the plurality of reinforcing bar fixing bodies 70 are connected with bolts and nuts. As shown in FIG. 9 , in the seventh step, the decorative formwork 80 is joined to the formwork support member 50 . In the eighth step, the portion of the excavated groove GA outside the decorative formwork 80 is backfilled. In the ninth step, concrete is poured into the area surrounded by the decorative formwork 80, and the concrete foundation 20 is placed. The concrete foundation 20 is provided up to a position higher than the first flange 41 of the steel beam 40 . Since the connecting portion between the first flange 41 of the beam steel 40 and the second base portion 72 of the reinforcement fixing body 70 is covered with the concrete foundation 20, the strength of the foundation structure 10 is increased. Note that the movement of the decorative formwork 80 in the direction away from the reinforcing bar fixing body 70 when the concrete is poured is restricted by the soil backfilled in the eighth step. In a tenth step, a finishing layer 400 (see FIG. 1) is provided on the concrete foundation 20 to form the floor level FL.

Actions and effects of the base structure 10 will be described.
The connecting portion 73 and the reinforcing bar 300 can be easily connected by the supporting portion 61 . In addition, by placing the concrete foundation 20 in a state where the steel foundation beam 30 is held in the height direction position with respect to the ground level GL by the reinforcing bar fixing body 70, the ground G and the steel base beam 30 are connected through the reinforcing bar fixing body 70. Since the foundation beams 30 are connected, there is no need to attach anchor bolts to the steel foundation beams 30. - 特許庁Therefore, the construction time of the foundation structure 10 can be shortened. Furthermore, in the foundation structure 10, the concrete foundation 20 mainly plays an auxiliary role for transmitting compressive force from the steel foundation beams 30 to the ground G. Since the frame 110 and the steel foundation beams 30 are connected by the bolts 130, the pull-out force generated in the column base of the load-bearing wall included in the frame 110 acts on the steel foundation beams 30 as bending stress and shear stress. works. In the foundation structure 10, since the cross-sectional shape of the steel foundation beams 30 is selected so as to resist these stresses, the steel foundation beams 30 form a balanced system. Therefore, no anchor bolts are required to connect the steel foundation beam 30 and the concrete foundation 20 . Further, by adjusting the width of the excavated groove GA formed in the first step, the width of the base corresponding to the strength of the ground G can be easily secured.

(Second embodiment)
The base structure 10 of the second embodiment includes a decorative formwork 180 and a plurality of support sections 161 shown in FIG. 10 instead of the decorative formwork 80 and support sections 61 shown in FIG. The decorative formwork 180 is, for example, a mesh formwork. The decorative formwork 180 is, for example, a steel mesh. The decorative formwork 180 includes a plurality of reinforcing bars 181 and mesh bars 182 welded to the plurality of reinforcing bars 181 . The decorative mold 180 is provided so that the lower portion 180A is located below the ground level GL. The decorative formwork 180 is provided so that the upper part 180B is located above the ground level GL and below the second flange 42 of the beam steel material 40 . A finishing layer 190 is provided on the surface of the decorative mold 180 . The finishing layer 190 is for example a mortar layer. Since the decorative mold 180 is a mesh mold, the finishing layer 190 can be easily formed on the surface of the decorative mold 180 .

The multiple supports 161 include a first support 161A, a second support 161B, and a third support 161C. A plurality of supporting portions 161A, 161B, and 161C are provided along the longitudinal direction of the beam steel material 40 and the reinforcing bar fixing body 70, respectively.

The first support portion 161A connects the web 43 of the steel beam 40 and the decorative formwork 180 . One end portion 161AX of the first support portion 161A is welded to the web 43 . The other end portion 161AY of the first support portion 161A is hook-shaped and hooked on the reinforcing bar 181 .

The second support portion 161B connects the beam steel material 40 and the reinforcing bar fixing body 70 to the decorative formwork 180 . One end portion 161BX of the second support portion 161B is welded to the first flange 41 and the second base portion 72 . The other end portion 161BY of the second support portion 161B has a hook shape and is hooked on the reinforcing bar 181 .

The third support portion 161</b>C connects the connection portion 73 of the reinforcement fixing body 70 and the decorative formwork 180 . One end portion 161CX of the third support portion 161C is welded to the connecting portion 73 . The other end portion 161CY of the third support portion 161C is hook-shaped and hooked on the reinforcing bar 181 .

Note that the above-described embodiments are examples of possible forms of the reinforcing bar fixing body and the basic structure of a building including the same, and are not intended to limit the forms. The reinforcing bar fixing body according to the present invention and the foundation structure of the building provided with the same may take forms different from those illustrated in the above embodiments. One example is a form in which part of the configuration of the embodiment is replaced, changed, or omitted, or a form in which a new configuration is added to the embodiment.

10: Foundation structure 30: Steel foundation beam 61: Support part 161: Support part 61A: Insertion part 62B: Regulation part 70: Rebar fixing body 71: First base part (base part)
72: Second base (base)
73: Connecting part 80: Decorative formwork 180: Decorative formwork

Claims (3)

A reinforcing bar fixing body for the foundation, which is used for the foundation of a building, is installed at the bottom of an excavated trench provided in the ground at intervals, and supports the steel foundation beam of the foundation,
a pair of bases arranged vertically apart ;
a connecting portion that connects the pair of bases;
A supporting portion provided in the connecting portion and supporting the reinforcing bar ,
The pair of bases spreads horizontally in a state where the reinforcing bar fixing body is arranged on the root cut bottom,
The connecting portion is configured to intersect perpendicularly with the pair of base portions and to extend in the extension direction of the excavated groove in a state where the reinforcing bar fixing body is arranged at the bottom of the excavation,
the support portion is provided perpendicular to the pair of base portions and the connecting portion, is connected to the pair of base portions and the connecting portion, and has an insertion portion into which the reinforcing bars are inserted;
the insertion portion includes a groove that slopes downward toward the connecting portion from the outside,
Rebar anchor. The foundation structure of a building,
steel foundation beams;
a plurality of reinforcing bar fixing bodies installed at intervals at the bottom of an excavated trench provided in the ground and supporting the steel foundation beam ;
a decorative formwork covering the steel foundation beam and the outer periphery of the reinforcing bar fixing body;
concrete that fills the excavated trench to cover the reinforcing bar fixture and is partially surrounded by the decorative formwork;
The decorative formwork has a plurality of reinforcing bars and mesh bars welded to the plurality of reinforcing bars,
The reinforcing bar fixing body includes a pair of bases arranged apart from each other in the vertical direction, a connecting part arranged between the pair of bases and connecting the pair of bases, and a connecting part provided in the connecting part and extending from the connecting part. a support portion that extends outward and supports the reinforcing bars of the decorative formwork;
Building foundation structure. The reinforcing bar fixing body includes a restricting portion positioned outside the outer end portion of the supporting portion with respect to the connecting portion and in contact with the decorative formwork.
The foundation structure of the building according to claim 2 .

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