JP2020070551A - Building structure - Google Patents

Abstract

To provide a building structure capable of realizing a wide space with no column in a part of an area, causing no long construction period and no cost increase by avoiding excessive specifications.SOLUTION: A building structure 10 supports multiple steel beams (at least two kinds of steel beams of a first steel beam 110 and a second steel beam 210) with one or more of reinforced concrete structures (RC structure 220), is composed of a light-gauge steel area 100 using the first steel beam 110 and a heavy steel frame area 200 adjacent to the light-gauge steel area 100 and using the second steel beam 210, and has a joint part 250 jointing one RC structure, the first steel beam 110 and the second steel beam 210 to at least one RC structure 220 of one or more of the RC structure 220.SELECTED DRAWING: Figure 2

Description

  The present invention relates to a building structure, and more particularly, to a building structure that does not become over-specification (over-spec) and can be provided with an area having a large internal space (a space such as a living room formed by a beam and a pillar) of the structure. Regarding things.

  Conventionally, in a low-rise building such as a product sales / distribution facility or a warehouse, a composite construction method including columns made of reinforced concrete and beams made of steel frame has been adopted. This construction method combines the advantages of the low cost of reinforced concrete construction and the short construction period of steel frame construction. Further, structurally, by using reinforced concrete that is strong against compression for the columns and using steel frames that are strong against tension for the beams, it is possible to widen the space between the columns and secure a wide pillar-free space.

  Japanese Patent Laid-Open No. 2011-069148 (Patent Document 1) discloses a structure of a building in which such a composite construction method is adopted for a high-rise building and the space between pillars can be wide. The structure of the building disclosed in Patent Document 1 includes a core tube frame composed of a reinforced concrete core wall provided so as to surround the center of the building, and a reinforced concrete column provided on the outer periphery of the building. It is characterized by comprising an outer peripheral frame structure composed of a first steel frame beam and a second steel frame frame installed between the core tube frame structure and the outer peripheral frame structure.

JP, 2011-069148, A

  By the way, conventionally, an industrialized house (a type conforming certified house) is known as a so-called prefabricated house as a building based on a type conforming approval that conforms to relevant laws and regulations based on the Building Standards Act. This industrialized house is a house that has been certified by the country in advance, and because it is based on a lightweight steel structure and because it is possible to produce building materials in the factory, it not only has a cost advantage but also has a short construction period. It is an advantage. And such an industrialized house may be adopted as a housing for elderly people with service. Furthermore, in such a housing for elderly people with services, the minimum size of one room (individual living room) can be reduced by providing a partly shared space, so the number of rooms can be the same on the same floor area. You can do a lot. As part of this shared space, it is conceivable to provide a dining room with a large span (no pillars and a wide space).

  However, in an industrialized house based on a lightweight steel structure, it is difficult to realize a large span because the columns and beams supporting the building structure are generally not strong, including the joints, (1) It is necessary to install a pillar in the middle of the large space, or (2) construct by a conventional construction method (heavy steel frame / RC structure) that allows a large space. However, in (1), there are cases where the pillar is inconvenient for the wheelchair user, and there is a case where it is not possible to provide a sufficiently reliable service due to the blind spot of the pillar. In (2), a heavy steel frame structure used in an office building or the like (although the technique disclosed in Patent Document 1 may be applied) allows a large span, but requires a large span. Except for the dining room, there will be excess specifications for individual living rooms and equipment rooms, leading to higher costs and longer construction periods.

  The present invention was developed in view of the above problems of the prior art, and an object thereof is a building structure that supports a plurality of steel beams by one or more reinforced concrete structures, , It is to provide a building structure that can realize a wide space without pillars in some areas without avoiding excessive specifications, prolonging the construction period and increasing costs.

In order to achieve the above object, the building structure according to the present invention takes the following technical means.
That is, this building structure is a building structure that supports a plurality of steel frame beams by one or more reinforced concrete structures, and is adjacent to the lightweight steel frame area using the first steel frame beam and the lightweight steel frame area, A heavy steel frame area using a second steel beam having a heavier weight per unit length than the first steel beam, and at least one reinforced concrete structure of the one or more reinforced concrete structures, the one reinforced concrete structure An object and a joint portion that joins the first steel frame beam and the second steel frame beam.

Preferably, in the structure formed by the steel beam and the reinforced concrete structure, the maximum line-of-sight space in which there is no object obstructing the field of view can be designed so that the heavy steel frame area is larger than the lightweight steel frame area. Can be configured to.
More preferably, two or more of the lightweight steel frame areas may be adjacent to the heavy steel frame area in a plan view.

More preferably, at least one of the lightweight steel frame area and the heavy steel frame area may have a multi-story structure, and the lightweight steel frame area may not be arranged below the heavy steel frame area.
More preferably, the lightweight steel frame area can be configured to be a building based on type conformity approval that conforms to relevant laws and regulations based on the Building Standards Act.

More preferably, the reinforced concrete structure may be any one of a reinforced concrete beam, a reinforced concrete column and a reinforced concrete wall.
More preferably, the lightweight steel frame area and the heavy steel frame area have a rectangular shape in a plan view, and the first lightweight steel frame area is adjacent to the first side of the rectangle of the heavy steel frame area, and the first side is A second lightweight steel frame area different from the first lightweight steel frame area is adjacent to the second side facing the second side of the rectangle of the heavy steel frame area, and the second lightweight steel frame area different from the first lightweight steel frame area is adjacent to the second lightweight steel frame area. At least a part of the side is formed of a first reinforced concrete structure, at least a part of the second side is formed of a second reinforced concrete structure, and the first reinforced concrete structure and the second reinforced concrete structure The second steel beam is supported by and the first steel beam in the first lightweight steel area is supported by at least the first reinforced concrete structure, The first steel beam of the second lightweight steel frame area is supported by at least the second reinforced concrete structure, and the length of the side of the rectangular shape in the first lightweight steel frame area and the second lightweight steel frame area. With respect to, the difference in the lengths of the sides positioned in the direction perpendicular to the first side or the second side may be 40% or less.

  The building structure according to the present invention is a building structure in which a plurality of steel beams are supported by one or more reinforced concrete structures, and in particular, avoiding excessive specifications, prolonging the construction period, and not increasing the cost. It is possible to provide a building structure capable of achieving a pillarless and wide space in a partial area.

It is a top view of a house for elderly people with a service which is an example of a building structure concerning an embodiment of the invention. It is an elevation view of the building structure which concerns on embodiment of this invention. FIG. 3 is a partially enlarged view of FIG. 2. It is an enlarged view of the part of the area | region 4 shown in FIG. It is a basic block diagram (plan view) of the building structure which concerns on embodiment of this invention. It is a top view which shows arrangement | positioning of RC structure in the heavy steel frame area employ | adopted for the building structure which concerns on embodiment of this invention. It is a top view showing arrangement of a lightweight steel frame area and a heavy steel frame area in a building structure concerning an embodiment of the invention. It is an elevation view showing an arrangement of a lightweight steel frame area and a heavy steel frame area in a building structure according to an embodiment of the present invention. (A) A frame assembly diagram for explaining a joint portion for joining a reinforced concrete structure (RC structure) and a first steel beam and a second steel beam in a building structure according to an embodiment of the present invention, (B) It is a top view. It is sectional drawing of the arrow A direction in FIG. 9 (B).

Hereinafter, a building structure according to an embodiment of the present invention will be described with reference to the drawings. In addition, in the following, the light-weight steel frame area 100 and the heavy steel frame area 200 are described as a rectangular (rectangular) shape in a plan view, but the present invention is not limited to such a rectangular shape.
<Overall structure>
With reference to FIG. 1, an outline of a housing for elderly people with service, which is an example of a building structure 10 according to an embodiment of the present invention, will be described. The serviced housing for the elderly will be equipped with a number of individual living rooms corresponding to the number of occupants, such as sleeping, etc., utilities such as shared toilets and bathrooms, and a pillar-less spacious dining room. In addition to these, an office, stairs, elevator, kitchen, etc. will be provided. Here, the building structure according to the present invention is not limited to the housing for the elderly with service, and the housing for the elderly with service is only one example of the application example of the building structure according to the present invention. Absent. Although this building structure 10 has a three-story structure (multi-story structure), the number of floors is not limited as long as it is one or more, but as will be described later, the lightweight steel frame area 100 in this building structure 10 is described. Is preferably a building based on type conformity certification that conforms to related laws and regulations based on the Building Standards Act (This building structure 10 is basically an industrialized house (type conformity certified house) From) to about the 3rd floor is preferable.

  1 to 3, the building structure 10 is characterized by a plurality of steel beams (a first steel beam 110 which is a lightweight beam and a heavy beam as described later). At least two types of steel beams with the second steel beams 210 are provided by one or more reinforced concrete structures (RC structures 220, more specifically RC beams 220A, RC columns 220B, RC walls 220C described later). A supporting building structure, which is a lightweight steel frame area 100 using the first steel beam 110, and a second weight which is adjacent to the lightweight steel frame area 100 and has a heavier weight per unit length than the first steel beam 110. And a heavy steel frame area 200 using the steel beam 210 of FIG. As shown in the basic configuration diagram (plan view) shown in FIG. 5, the housing for the elderly with a service, which is an example of the building structure 10 shown in FIG. And a first lightweight steel frame area 101 and a second lightweight steel frame area 102. Here, the first light-weight steel frame area 101 and the second light-weight steel frame area 102 have the same basic structure related to the present invention, and the parts not related to the present invention may be different. The first lightweight steel frame area 101 and the second lightweight steel frame area 102 may be collectively referred to as the lightweight steel frame area 100.

The building structure 10 includes at least one reinforced concrete structure (RC structure) of at least one reinforced concrete structure (RC structure), the one reinforced concrete structure, the first steel beam 110, and the second structure. The joint part 250 for joining the steel beam 210 of FIG.
By providing such a structure, the heavy steel frame area 200 in the building structure 10 uses the second steel beam 210 whose weight per unit length is heavier than that of the first steel beam 110. Since the column (RC structure) supporting the structure and the beam (the second steel beam 210 having a heavy weight per unit length) are strong, it is possible to realize a large span. Therefore, the heavy steel frame area 200 can be designed so that the maximum line-of-sight space (a space suitable for a dining room or the like having a large span (a wide space without pillars)) where there is no object that blocks the view is larger than the lightweight steel frame area 100. Note that the line-of-sight space in which there is no object that blocks the view is an object that supports the load of the building structure 10 and because of that there is an object that blocks the view in the space (structures such as beams, columns, and walls). It means a space with a large span (a pillarless and wide space) that can be realized because there is no need to dispose objects.

The lightweight steel frame area 100 in the building structure 10 is a building based on the type conformance approval that conforms to related laws and regulations based on the Building Standards Law.
The building structure 10 according to the present embodiment configured as described above basically employs the lightweight steel frame area 100 that is an industrialized house (type conforming certified house), and requires a part of a large span. By adopting the heavy steel frame area 200 (using industrialized housing (light steel frame) for areas other than large spans), the cost advantage, the shortened construction period of industrialized housing (shortened construction period, etc.) It is possible to utilize the merit of reducing the number of workers. Specifically, in order to realize a large space, the second steel beam 210 as a large beam (for example, an H350 beam used in a heavy steel structure) is supported by a sturdy RC structure. The RC structure realizes a large span by using a heavy steel frame having a compressive force as a strength and a tensile force as a strength as the second steel beam 210. Further, since the bearing wall of the RC structure (RC wall) bears the seismic force generated in the building, the building can be made more resistant to deformation than the lightweight steel frame building.

<Detailed configuration>
The building structure 10 will be described in more detail with reference to FIGS. 2 to 4. As shown in these drawings, in the joint portion 250, the first steel beam 110 and the second steel beam 210 are connected to at least one of the RC beam 220A, the RC column 220B, and the RC wall 220C (directly or by a metal joint). Etc. (indirectly via a gusset plate, a base plate, etc. described later). In addition, in the joint portion 250, any one of the RC beam 220A, the RC column 220B, and the RC wall 220C may be the joint destination of the first steel beam 110 and the second steel beam 210, and therefore, for example, the RC wall 220C. Does not have to be the joining destination.

  Although not limited, the thickness t (A) of the RC beam 220A, the thickness t (B) of the RC column 220B, and the thickness t (C) of the RC wall 220C are, for example, t (B)> t. (A)> t (C). Further, it is preferable that a widening foundation 400 different from the normal foundation 300 is used for the foundation of the RC structure 220 including the joining portion 250, and a reinforcing pile is provided below the widening foundation 400 if necessary. Further, as shown in the schematic view of FIG. 4, the opening provided in the RC structure 220 in the heavy steel frame area 200 is provided avoiding the RC beam 220A and the RC column 220B. Except for such an opening, it is basically constituted by the RC wall 220C.

<Basic layout>
As shown in FIG. 5, the building structure 10 basically includes a lightweight steel frame area 101 and a lightweight steel frame area 102 on both sides (left and right on the paper surface) of the heavy steel frame area 200. That is, in plan view, the lightweight steel frame area 100 (the lightweight steel frame area 101, the lightweight steel frame area 102) and the heavy steel frame area 200 have a rectangular (rectangular) shape, and the first side of the rectangle of the heavy steel frame area 200 is the first side. A second lightweight steel frame area 102 different from the first lightweight steel frame area 101 is provided on the second side of the rectangle of the heavy steel frame area 200, which is a second side adjacent to the lightweight steel frame area 101 and opposite to the first side. It is adjacent. Then, in the heavy steel frame area 200, at least a part of the first side is configured by the first reinforced concrete structure 221A, and at least a part of the second side is configured by the second reinforced concrete structure 221B. Here, the present invention is not limited, but the first reinforced concrete structure 221A and the second reinforced concrete structure 221B are symmetrical with respect to a straight line parallel to the first side or the second side. Are preferably arranged in

  In this way, the RC structures 220 (the first reinforced concrete structures 221A and the second reinforced concrete structures 221B) are preferably arranged symmetrically, and then the second steel beam 210 has the first reinforced concrete structures 221A. And the second reinforced concrete structure 221B supports the respective joints 250, and the first steel frame beam 110 is connected to the two joints 250 by the first reinforced concrete structure 221A or the second reinforced concrete structure 221B. Supported by each. That is, the first steel beam 110, which is a lightweight beam, is supported by the RC structure 220 only on one side (the other support body is not limited), and the second steel beam 210, which is a heavy beam, has RC beams on both sides. It is supported by the structure 220.

  Then, as shown in FIG. 5, regarding the lengths of the sides of the rectangular shape in the first lightweight steel frame area 101 and the second lightweight steel frame area 102, the first side of the heavy steel frame area 200 or the first side of the heavy steel frame area 200 is determined. The difference in length between the sides positioned in the direction perpendicular to the two sides is 40% or less (dimension X (101) / dimension X (102) ≦ 1.4 or dimension X (102) / dimension X (101). ≦ 1.4) is preferred. Further, it is preferable that the ratio (X / Y) between the dimension X (= X (101) + X (200) + X (102)) and the dimension Y is 3.45 or less (X / Y ≦ 3.45).

  Here, in the basic structure of the building structure 10 shown in FIG. 5, a heavy steel frame area 200 is arranged in the center, and one light steel frame area 100 is arranged on each of left and right (on the paper surface), Each of the two reinforced concrete structures (RC structures) is provided with a joint portion 250 that joins the first steel beam 110 and the second steel beam 210. However, this building structure 10 has one or more reinforced concrete structures. At least one reinforced concrete structure (RC structure) in the structure (RC structure) may be provided with the joint portion 250 that joins the first steel frame beam 110 and the second steel frame beam 210. This means that it is possible to include the case where only one lightweight steel frame area 100 is adjacent to one heavy steel frame area 200. In this case, one of the second steel beams 210 is supported by the joint structure 250 (with the first steel beam 110) on the RC structure 220 and the other (as an example other than the RC structure) is a heavy steel column. It is preferable to be supported by In addition, including the pattern in which only one lightweight steel frame area 100 is adjacent to this one heavy steel frame area 200, the plane layout pattern and the elevation of the lightweight steel frame area 100 and the heavy steel frame area 200 in the building structure according to the present invention. Variations on the arrangement pattern will be described later. Before explaining variations of the plane arrangement pattern and the elevation arrangement pattern of the steel frame area, variations of the plane arrangement of the RC structure will be described first.

<Variation of plane layout of RC structure>
An RC structure 220 (RC beam 220A, RC column 220B, RC wall 220C, etc.) is provided in the heavy steel frame area 200 (more specifically, the boundary between the light steel frame area 100 and the heavy steel frame area 200) of the building structure 10. Be done. A variation of the planar arrangement of the RC structure 220 in the heavy steel frame area 200 will be described with reference to FIG. In the following, a case where the heavy steel frame area 200 has a rectangular shape will be described.

The number of RC structures 220 provided in the heavy steel frame area 200 may be one or more, and when the heavy steel frame area 200 has a rectangular shape, the maximum number is four.
Regarding the location of the RC structure 220 provided in the heavy steel frame area 200, it may be on any one side of the rectangular shape in the case of one location, and on two opposite sides of the rectangular shape in the case of two locations. It may be present or on two adjacent sides, in the case of three locations, it may be on the three sides of the rectangular shape, and in the case of four locations, it may be on all the four sides of the rectangular shape.

Further, in FIG. 6, the case of three locations is taken as an example, but the location of the RC structure 220 may include a location that is not on the side and is oblique. Further, in FIG. 6, the case of four locations is taken as an example, but the planar shape of one RC structure 220 may be an L-shaped RC structure 222 instead of a rectangular shape.
Here, although not limited, it is preferable to arrange the RC structures as much as possible so as to be line-symmetrical with respect to a straight line parallel to one side of the rectangular shape as an axis of symmetry.

<Variation of plane layout pattern in steel frame area>
In the building structure 10, it is preferable that two or more lightweight steel frame areas 100 are adjacent to the heavy steel frame area 200 in a plan view. In the basic pattern of FIG. 5, the two lightweight steel frame areas 100 are adjacent to each other with the heavy steel frame area 200 as the center. As described above with reference to FIG. 5, one or more lightweight steel frame areas 100 may be adjacent to one heavy steel frame area 200 in the building structure according to the present invention. Variations in the plane layout pattern of the lightweight steel frame area 100 and the heavy steel frame area 200 in the building structure 10 will be described with reference to FIG. 7. In the following, a case where the lightweight steel frame area 100 and the heavy steel frame area 200 have a rectangular shape will be described.

  As shown in FIG. 7, this building structure 10 has a planar configuration in which one lightweight steel frame area 100 and one heavy steel frame area 200 are adjacent to each other in the minimum configuration. In addition to the basic structure shown in FIG. 5, the heavy steel frame area 200 is provided in the center and the light steel frame areas 100 are provided on both sides of the heavy steel frame area 200, and various plane layout patterns shown in FIG. 7 can be considered. In any of the plane arrangement patterns, there is one heavy steel frame area 200 adjacent to at least one lightweight steel frame area 100. More specifically, all the plane layout patterns except the plane layout pattern at the upper left end (one lightweight steel frame area 100 is adjacent to one heavy steel frame area 200) include at least two lightweight steel frame areas 100 adjacent to each other. There is one.

  In all the plane arrangement patterns shown in FIG. 7, this building structure 10 has a plurality of steel beams (at least two types of steel beams of the first steel beam 110 and the second steel beam 210) of one or more. It is a building structure supported by a reinforced concrete structure (RC structure 220), and uses a lightweight steel frame area 100 using a first steel beam 110 and a second steel beam 210 adjacent to the lightweight steel frame area 100. The heavy steel area 200 and at least one reinforced concrete structure (RC structure) of one or more reinforced concrete structures (RC structures), one reinforced concrete structure and the first steel beam 110 and the second It is satisfied that the joint portion 250 for joining the steel beam 210 is provided.

<Variations of elevation layout pattern of steel frame area>
In the building structure 10, in elevation view, at least one of the lightweight steel frame area 100 and the heavy steel frame area 200 has a multi-story structure, and the lightweight steel frame area 100 is not arranged on the lower floor of the heavy steel frame area 200. Is preferred. Variations of the vertical layout pattern of the lightweight steel frame area 100 and the heavy steel frame area 200 in the building structure 10 will be described with reference to FIG. 8. In the following description, it is assumed that the lightweight steel frame area 100 and the heavy steel frame area 200 have a rectangular shape and the number of floors is 3 (three floors).

As shown in FIG. 8, in this building structure 10, at least one of the lightweight steel frame area 100 and the heavy steel frame area 200 has a multi-story structure (2nd floor or 3rd floor), and the lower floor of the heavy steel frame area 200 is The lightweight steel frame area 100 is not arranged.
In all the elevational arrangement patterns shown in FIG. 8, if the arrangement in the direction perpendicular to the paper surface (that is, the plane arrangement pattern) is taken into consideration, this building structure 10 has a plurality of steel beams (as shown in FIG. 7). A building structure in which at least two types of steel beams, a first steel beam 110 and a second steel beam 210, are supported by one or more reinforced concrete structures (RC structures 220), the first steel beam At least one of one or more reinforced concrete structures (RC structures) is configured from a light steel frame area 100 using 110 and a heavy steel frame area 200 using the second steel beam 210 adjacent to the light steel frame area 100. A reinforced concrete structure (RC structure) is provided with a joint portion 250 for joining one reinforced concrete structure to the first steel beam 110 and the second steel beam 210. We are satisfied.

<Detailed structure of joint>
Next, a detailed structure of a joint portion 250 that joins the reinforced concrete structure and the first steel beam 110 and the second steel beam 210 included in the building structure 10 will be described with reference to FIGS. 9 and 10. .. Here, FIG. 9 (A) is a frame assembly view for explaining the joint portion 250, FIG. 9 (B) is a plan view thereof, and FIG. 10 is an arrow A in FIG. 9 (B). It is sectional drawing of a direction. 9 and 10 are schematic diagrams including portions for easy understanding of the present invention.

  As described above, the joint portion 250 included in the building structure 10 includes at least one reinforced concrete structure (RC structure) of at least one reinforced concrete structure (RC structure), and the one reinforced concrete structure and the first reinforced concrete structure. The first steel frame beam 110 and the second steel frame beam 210 are joined to each other. As shown in FIGS. 9A and 9B, the first steel frame beam 110 and the second steel frame beam 210 are connected. Is joined to the reinforced concrete structure (here, RC beam 220A). The diagrams shown in FIGS. 9A and 9B are merely examples of the building structure according to the present invention.

  As shown in FIG. 9 (B), in this joint portion 250, the lightweight channel steel 251 related to the present invention is provided on the lightweight steel frame area 100 side. Further, the heavy steel frame area 200 side is not directly related to the present invention (it is not directly related in the sense that the first steel beam 110 and the second steel beam 210 are joined to one RC structure). ) A large number of lightweight channel steels 254 and lightweight steel beams 256 are provided. The first steel beam 110 or the second steel beam 210 may have a joint portion or the building structure 10 may have a structure other than this, but these are not directly related to the present invention. Not shown.

The joint 250 will be described in more detail with reference to FIG. 10 which is a cross-sectional view taken along the arrow A in FIG. 9B.
In FIG. 10, as the RC structure, an RC beam 220A and an RC wall 220C in which a large number of reinforcing bars RF are arranged are shown. Then, in the joint portion 250, the lightweight steel frame joint bolt 251RF and the heavy steel frame joint bolt BPLRF protrude from the RC beam 220A as a part of the reinforcing bar RF from the RC beam 220A. Although not limited, in each of the lightweight steel frame joint bolts 251RF and the heavy steel frame joint bolts BPLRF, the bar arrangement in the RC beam 220A has an L-shape, and the number of bar arrangements is different.

A lightweight channel steel 251 is fastened with a nut N to the lightweight steel-frame joining bolt 251RF via a non-shrink mortar M. A base plate 253BPL is fastened with a nut N to the heavy steel frame connecting bolt BPLRF via a non-shrink mortar M.
Although the floor material of the building structure 10 is not limited to the lightweight cellular concrete ALC, which is not directly related to the present invention, the lightweight cellular concrete ALC is a lightweight beam concrete. , Supported by heavy beams or RC structures. Further, in the heavy steel frame area 200, a lip channel steel 252 is provided between the lightweight cellular concrete ALC and the second steel beam 210.

  A gusset plate 251GPL is fastened with a bolt B and a nut N to the end of the first steel beam 110 on the joint portion 250 side, and the gusset plate 251GPL is welded to the lightweight channel steel 251. This lightweight grooved steel 251 has a length longer than the installation span of the first steel frame beam 110 in the front and back direction of the paper surface of FIG. 10, and the gusset plates 251 GPL of the plurality of first steel framed beams 110 have the lightweight grooved steel 251. Is welded to.

  A gusset plate 253GPL is fastened to the end portion of the second steel beam 210 on the joint portion 250 side with a bolt B and a nut N, and the gusset plate 253GPL is welded to the base plate 253BPL. As described above, the joint 250 includes the lightweight channel steel 251 to which the gusset plates 251 GPL of the plurality of first steel beams 110 are welded in the lightweight steel frame area 100. There is no such a metal fitting that commonly supports a plurality of second steel beams 210.

<Operational effects of the building structure according to the present embodiment>
As described above, according to the building structure 10 according to the present embodiment, basically, the lightweight steel frame area 100 which is an industrialized house (type conforming certified house) is adopted, and a part of a large span is required. By adopting the heavy steel frame area 200 (using industrialized housing (light steel frame) for areas other than large spans), the cost advantage, the shortened construction period of industrialized housing (shortened construction period, etc.) It is possible to utilize the merit of reducing the number of workers. In this case, the second steel frame beam 210, which is a weight beam for realizing a large space, is supported by a sturdy RC structure. The RC structure can realize a large span by using a heavy steel frame having a compressive force and a tensile force as the second steel beam 210. Further, since the bearing wall of the RC structure (RC wall) bears the seismic force generated in the building, the building can be made more resistant to deformation than the lightweight steel frame building.

  It should be understood that the embodiments disclosed this time are exemplifications in all points and not restrictive. The scope of the present invention is shown not by the above description but by the claims, and is intended to include meanings equivalent to the claims and all modifications within the scope.

  INDUSTRIAL APPLICABILITY The present invention is suitable in that it can be applied to a building structure in which a plurality of steel beams are supported by one or more reinforced concrete structures, avoids excessive specifications, does not prolong the construction period, does not lead to cost increase, and has a partial area. It is particularly preferable in that it is possible to provide a building structure that is pillarless and can realize a wide space.

10 Building Structures 100 Light Steel Frame Area 110 First Steel Beam (Light Beam)
200 heavy steel frame area 210 second steel beam (heavy beam)
220 Reinforced concrete structure (RC structure)
220A RC beam 220B RC column 220C RC wall 250 Joint part 300 Foundation 400 Widening foundation

Claims (7)

A building structure that supports a plurality of steel beams by one or more reinforced concrete structures,
A lightweight steel frame area using the first steel beam,
A heavy steel frame area that is adjacent to the lightweight steel frame area and that uses a second steel beam that is heavier per unit length than the first steel beam;
A building structure, comprising: at least one reinforced concrete structure of the one or more reinforced concrete structures; and a joint portion that joins the one reinforced concrete structure and the first steel beam and the second steel beam. ..   In the structure formed by the steel beam and the reinforced concrete structure, the heavy steel frame area can be designed to be larger than the lightweight steel frame area in the maximum line-of-sight space in which there is no object that obstructs the field of view. The building structure described in.   The building structure according to claim 1 or 2, wherein two or more of the lightweight steel frame areas are adjacent to the heavy steel frame area in a plan view.   At least one of the said lightweight steel frame area and the said heavy steel frame area is equipped with a multi-story structure, The said lightweight steel frame area is not arrange | positioned at the lower floor of the said heavy steel frame area, In any one of Claims 1-3. Building structure.   The building structure according to any one of claims 1 to 4, wherein the light-weight steel frame area is a building based on type conformity approval that conforms to relevant laws and regulations based on the Building Standards Act.   The building structure according to any one of claims 1 to 5, wherein the reinforced concrete structure is one of a reinforced concrete beam, a reinforced concrete column, and a reinforced concrete wall. In a plan view, the lightweight steel frame area and the heavy steel frame area have a rectangular shape,
The first lightweight steel frame area is adjacent to the first side of the rectangle of the heavy steel frame area, and the first side is the second side facing the first side and the second side of the rectangle of the heavy steel frame area. A second lightweight steel frame area adjacent to the lightweight steel frame area is adjacent,
In the heavy steel frame area, at least a part of the first side is configured by a first reinforced concrete structure, and at least a part of the second side is configured by a second reinforced concrete structure,
The second steel beam is supported by the first reinforced concrete structure and the second reinforced concrete structure,
A first steel beam of the first lightweight steel area is supported by at least the first reinforced concrete structure;
A first steel beam of the second lightweight steel area is supported by at least the second reinforced concrete structure;
Regarding the lengths of the sides of the rectangular shape in the first lightweight steel frame area and the second lightweight steel frame area, there is a difference in the lengths of the sides positioned in the direction perpendicular to the first side or the second side. The building structure according to any one of claims 1 to 6, which is 40% or less.