JP3823042B2 - Joint structure, floor structure and unit building having the joint structure - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a joint structure, and a floor structure and a unit building having the joint structure.
[0002]
[Prior art]
In a building unit constituting a unit building, a connecting structure for connecting a large beam and a small beam is described in, for example, Japanese Patent Application Laid-Open No. 8-151689.
[0003]
This joint structure is used for assembling a floor portion as a floor of a building unit and a ceiling portion as a ceiling.
[0004]
As shown in FIG. 9, the frame constituting the ceiling portion is composed of a ceiling large beam A, a ceiling small beam B, and a connecting piece C for connecting these beams. The ceiling beam A is made of metal, and the ceiling beam B is made of wood. The coupling piece C includes an upper flange portion D, a lower flange portion E disposed in parallel with the upper flange portion D, and a side surface portion F connecting the end edges of the upper and lower flange portions D and E. A pair of bracket portions G are welded to the side surface portion F. The ceiling beam A and the ceiling beam B are coupled to the ceiling beam A by fitting the ceiling beam A into the space formed by the upper flange portion D, the lower flange portion E, and the side surface portion F of the coupling piece C. The ceiling beam B is inserted between the bracket portions G of the coupling pieces, and the ceiling beam B and the bracket portion G are fastened by bolts H or the like.
[0005]
Further, as shown in FIG. 10, the frame constituting the floor portion is composed of a large floor beam A ′, a small floor beam B ′, and a coupling piece C ′ for coupling these beams. The large floor beam A ′ and the small floor beam B ′ are made of metal. The coupling piece includes an upper flange portion D ′ and a side surface portion F ′ extending obliquely downward from the edge of the upper flange portion D ′. The connection between the floor beam A ′ and the floor beam B ′ is made by connecting the upper flange portion D ′ of the connecting piece C ′ to the upper surface portion J ′ of the floor beam A ′ and the free end or lower end of the side surface portion F ′ as the floor beam A. It is made by welding to the lower surface portion K ′ of “and welding the end portion of the floor beam B ′ to the side surface portion F ′ of the coupling piece C ′.
[0006]
[Problems to be solved by the invention]
In the former frame connecting structure, since the ceiling beam A is bolted to the bracket part G of the connecting piece C, the height of the ceiling beam B is always constant. In the latter frame connection structure, the floor beam B ′ is supported not only by the connection piece C ′ but also by the lower surface portion K ′ of the floor beam A ′. The length is constant. For this reason, if the height of the floor beam B or the ceiling beam B ′ is changed according to the design purpose, for example, one of two adjacent building units is configured as a Western-style room and the other as a Japanese-style room. In order to make the floor of the building barrier-free, a special coupling piece must be designed and manufactured if the height of the beam of the building unit that becomes the Japanese-style room is to be lowered.
[0007]
An object of the present invention is to obtain a coupling structure that can arbitrarily set the height of a floor and a ceiling and that can be easily performed, a floor structure having the coupling structure, and a unit building.
[0008]
[Means for Solving the Problems]
In order to achieve the above object, the coupling structure according to claim 1 is such that a horizontal member such as a small beam, joist, or field edge is coupled to a beam via a coupling piece, and the coupling piece is coupled to the beam. The lower flange portion and the side surface portion are provided, and the side surface portion is provided with an insertion opening having an edge portion for fitting the end portion of the horizontal member and supporting the horizontal member.
[0009]
The coupling structure according to claim 2 is the coupling structure according to claim 1, wherein the insertion opening of the coupling piece is opened to the outside at the top.
[0010]
The connection structure according to claim 3 is the connection structure according to claim 1 or 2, wherein the side surface portion of the connection piece is disposed along the insertion opening, and the bracket portion is connected to the horizontal member. I have.
[0011]
Furthermore, in order to achieve the above object, a floor structure according to claim 4 is a floor structure provided with the joint structure according to claim 1, claim 2, or claim 3, wherein the joint is formed in a part of the floor. The height of the horizontal member is changed by changing the insertion opening height of the piece.
[0012]
Furthermore, in order to achieve the above object, the unit building according to claim 5 is a unit in which a plurality of building units each having the connecting structure according to claim 1, 2 or 3 provided on the floor are arranged in parallel. In some buildings, the height of the horizontal member is changed by changing the insertion opening height of the connecting piece.
[0013]
[Action]
In the coupling structure according to claim 1, configured as described above, the height of the horizontal member is changed by changing the height of the insertion opening. Therefore, for example, the floor portion of the building unit constituting the unit building is used as the coupling structure. When used for a ceiling or a ceiling part, a floor or ceiling having a height corresponding to the design purpose can be obtained by preparing a connecting piece having a different insertion opening height. And since a horizontal member is positioned by the edge part which forms the insertion opening of a coupling piece, and the positioning operation of a horizontal member is not required especially, the joining operation | work of a horizontal member and a coupling piece can also be performed easily.
[0014]
In this case, when the insertion opening of the coupling piece is open to the outside as in claim 2, the horizontal member is fitted into the insertion opening only by dropping the horizontal member from the top to the insertion opening of the coupling piece. At the same time, since the positioning is performed by hitting the lower edge of the insertion opening, the joining operation can be performed more easily.
[0015]
Further, as in claim 3, when the side surface portion of the coupling piece includes a bracket portion arranged along the insertion opening and coupled to the horizontal member, even if the horizontal member is made of wood, It can be connected to the beam by fixing it to the bracket with bolts or nails. Also at this time, the horizontal member is positioned by the edge of the insertion opening, and does not require any special positioning work for the horizontal member, so that bolt fastening and nailing can be easily performed.
Furthermore, in the floor structure according to claim 4 configured as described above, a floor having a height corresponding to the specifications of each room and the installed housing equipment can be easily obtained, and the level difference of the floor surface can be eliminated. .
[0016]
Furthermore, the unit building of claim 5 configured as described above can obtain floors and ceilings having different heights, for example, by matching the height of the floor surface between adjacently arranged building units, Steps can be eliminated.
[0017]
DESCRIPTION OF THE PREFERRED EMBODIMENTS Embodiment 1
A coupling structure, a floor structure having the coupling structure, and a unit building according to Embodiment 1 of the present invention will be described with reference to the drawings.
[0018]
1 to 3 show a coupling piece in the coupling structure according to Embodiment 1 of the present invention. The coupling piece is indicated generally by the reference numeral 10 in these figures.
[0019]
The connecting piece 10 is for connecting, for example, a metal groove member, for example, a beam 21 made of groove steel, and a horizontal member or a small beam 22 made of a metal square pipe at a right angle.
[0020]
The coupling piece itself has a main body fixed to the beam 21. The main body includes an upper flange portion 11, a lower flange portion 12 and a side surface portion 13. The upper flange portion 11 and the lower flange portion 12 are arranged in parallel with each other at an interval related to the distance between the upper surface portion 21a of the beam 21 and the lower flange portion 12. The side surface portion 13 is disposed so as to connect one side edge portion of the upper flange portion 11 and the lower flange portion 12.
[0021]
An insertion opening 14 is provided in the side surface portion 13. As shown in FIG. 3, the insertion opening 14 has a width corresponding to the width of the small beam 22 and is arranged perpendicularly to the main body from the upper flange portion 11 toward the lower flange portion 12. The upper portion of the insertion opening 14 is located at the upper flange portion 11 and is opened at the upper flange portion 11. The remainder of the insertion opening 14 is located on the side part 13 and the lower end is closed. As shown in FIG. 3, the insertion opening 14 has a rectangular shape as a whole, the lower edge portion 14a is parallel to the upper edge portion 14b, and both side edge portions 14c are also parallel to each other. In this coupling piece, the distance L from the upper flange portion 11 to the lower edge portion 14a of the insertion opening in the insertion opening 14 is smaller than the height H of the small beam 22, for example.
[0022]
The coupling piece 10 is coupled to the beam 21 so that the inner surface of the upper flange portion 11 is in contact with the outer surface of the upper surface portion 21a of the beam 21 and the outer surface of the lower flange portion 12 is in contact with the inner surface of the lower surface portion 21b of the beam 21. For example, the piece 10 is fitted to the beam 21 and the upper flange portion 11 and the lower flange portion 12 are welded to the upper and lower surface portions 21a and 21b of the beam 21, for example.
[0023]
When the small beam 22 is coupled to the coupling piece 10, the end of the small beam 22 is dropped into the insertion opening 14 from above the portion of the coupling opening 10 positioned at the upper flange portion 11, and the upper flange portion 11. And the side surface portion 13 by welding. At this time, since the insertion opening 14 supports the small beam 22 by the lower edge portion 14a and the positioning of the small beam 22 is performed, the small beam 22 is simply dropped into the insertion opening 14 from the upper portion, and the small beam 22 is connected to the coupling piece. Combined with the fact that it can be attached to 10, the joining work can be performed easily.
[0024]
This connection structure is used, for example, for connection between a large floor beam and a small floor beam in a floor portion of a building unit constituting a unit building, and for connection between a large ceiling beam and a small ceiling beam in a ceiling portion.
[0025]
FIG. 4 shows an example of a building unit having this connection structure.
[0026]
This building unit includes a floor 120, a ceiling 130, and a pair of walls 140 and 150.
[0027]
The floor 120 includes a floor frame including two floor beams 121 and a plurality of floor beams 122 which are horizontal members. The large floor beam 121 is made of groove steel, and the small floor beam 122 is made of a metal square pipe. The large floor beams 121 are arranged in parallel to each other. The floor small beams 122 are arranged between the floor large beams 121 at right angles to the floor large beams 121 and at equal intervals, and both ends are coupled to the floor large beams 121 by coupling pieces 110.
[0028]
The ceiling portion 130 includes a floor frame that includes two ceiling beams 131 and a plurality of ceiling beams 132. The ceiling girder 131 is made of groove steel. The ceiling beams 131 are arranged in parallel to each other. The ceiling beam 132 is made of wood having a rectangular cross section. The ceiling beams 132 are arranged between the ceiling beams 131 at right angles to the ceiling beams 131 and at equal intervals, and stepped notches at both ends are fitted to the lower surface of the ceiling beam 131, and It is fixed to the ceiling beam 131 with bolts or the like.
[0029]
The wall portion 140 includes a wall frame including a column 141, a ceiling beam 142, and a floor beam 143. The column 141 is made of a metal square pipe, and the upper and lower ends are covered with a cap. The ceiling beam 142 and the floor beam 143 are made of groove steel. The columns 141 are arranged in parallel to each other, the ceiling beam 142 is stretched over the top of the column 141, and the floor beam 143 is stretched over the bottom of the column 141, and is connected by joint plates 147 and 157, respectively.
[0030]
The wall 150 includes a wall frame including columns 151, a ceiling beam 152, and a floor beam 153. The column 151 is made of a metal square pipe, and the upper and lower ends are covered with a cap. The ceiling beam 152 and the floor beam 153 are made of groove steel. The pillars 151 are arranged in parallel to each other. The ceiling beam 152 is spanned between the upper portions of the columns 151, and the floor beam 153 is spanned between the lower portions of the columns 151, and is connected by joint plates 154 and 155, respectively.
[0031]
In addition, although not shown in figure, each part 120,130,140,150 is formed by attaching a base plate, a finishing board, etc. to each flame | frame.
[0032]
In the building unit, for example, the wall portions 140 and 150 are arranged in parallel, the ceiling portion 130 is arranged on the upper portion of the wall portion 140, and the joint plates 146 and 156 on the wall portions 140 and 150 are connected to the ceiling beam 131 of the wall portion 140. And the floor 120 is disposed below the walls 140 and 150, and the joint plates 148 and 158 on the walls 140 and 150 are fitted to the floor beams 121 of the floor 120. And is assembled by bolting.
[0033]
This building unit constitutes a Western-style room, a Japanese-style room, a sanitary, etc. by one or more. A unit building is constructed by stacking these building units and then joining the building units together.
[0034]
[Example 1]
FIG. 5 shows an example of the first embodiment of the present invention. The same or equivalent parts as those of the first embodiment will be described with the same reference numerals in the last two digits.
[0035]
First, the structure will be described. In the first embodiment, when the specification of one building unit is a Western-style room, the above-described coupling structure is applied to the coupling portion between the floor beam 121 and the floor beam 122 of the floor portion 120. It is.
[0036]
The coupling piece 110 includes a main body including an upper flange portion 111, a lower flange portion 112, and a side surface portion 113, similarly to the coupling piece 10 described with reference to FIGS. 1 to 3. An insertion opening 114 is provided across the upper flange portion 111 and the side surface portion 113. The height L1 of the insertion opening 114 is lower than the height H1 of the floor beam 122.
[0037]
The coupling piece 110 is coupled to the floor large beam 121 such that the inner surface of the upper flange portion 111 is in contact with the outer surface of the upper surface portion 121a of the floor large beam 121 and the outer surface of the lower flange portion 112 is in contact with the inner surface of the lower surface portion 121b of the floor large beam 121. The upper flange portion 111 and the lower flange portion 112 are welded to the upper surface portion 121a and the lower surface portion 121b of the floor large beam 121. The end of the floor beam 122 is dropped into the insertion opening 114 from above the portion of the insertion opening 114 in the insertion opening 114 located at the upper flange portion 111 and welded to the upper flange portion 111 and the side surface portion 113. Are coupled to the floor girder 121. The base plate 161 is laid on the floor beam 121 and fixed to the floor beam 122. A flooring 162 is disposed on the base plate 122 and fixed to the base plate 122.
[0038]
Next, the operation of the first embodiment will be described. In the floor structure of the first example, in addition to the function and effect of the first embodiment, when the floor girder 121 and the floor girder 122 are coupled, the upper surface portion 122a of the floor girder 122 has the floor girder 121. Therefore, the base plate 161 and the flooring 162 can be directly stretched on the floor beam 122, and a floor joist or the like is not required.
[0039]
Other configurations and operational effects are substantially the same as those of the first embodiment, and thus description thereof is omitted.
[0040]
[Example 2]
In the present invention, the coupling pieces 10 and 110 are prepared with different heights L and L1 from the upper flange portions 11 and 111 to the insertion opening lower edge portions 14a and 114a in the insertion openings 14 and 114, respectively. Depending on the design purpose, a floor of any height can be obtained.
[0041]
FIG. 6 shows Example 2 of Embodiment 1 of the present invention, and the same or equivalent parts as those in Embodiment 1 are described with the same reference numerals in the last two digits.
[0042]
Explaining the configuration, in the second embodiment, when the specifications of one of two adjacent building units are configured as a Western-style room and the other as a Japanese-style room, the floor large beam 221 and the floor cross beam 222 are combined. The above structure is applied to the part.
[0043]
The floor girder 221 of the building unit constituting the Western-style room is arranged in parallel with another floor girder. The floor girder 221 'of the building unit constituting the Japanese-style room is also arranged in parallel with the other floor girder.
[0044]
The floor beam 222 is disposed between the floor girder 221 and the other floor girder, and both ends thereof are coupled to the floor girder by the coupling pieces 210. Further, the floor beam 222 ′ is also disposed between the beam beam 221 ′ and the other beam beam, and both ends thereof are coupled to these floor beams by a coupling piece 210 ′.
[0045]
A base plate 261 is laid on the floor beam 222. A finishing plate such as a flooring 262 is laid on the base plate 261. In addition, a base plate 261 ′ is also laid on the floor beam 222 ′. A tatami mat 262 'is laid on the base plate 261'. The threshold 263 is disposed between the flooring 262 and the tatami 262 ′ and is fixed to the base plate 261.
[0046]
Among the connecting pieces, the connecting piece 210 that constitutes the floor of the building unit serving as the Western-style room is configured in the same manner as the connecting piece described in relation to FIGS. The coupling piece 210 ′ constituting the floor of the building unit serving as a Japanese-style room has a main body configured in the same manner as the coupling piece described with reference to FIGS. 1 to 3, but the insertion opening 214 ′ is different. The insertion opening 214 ′ is provided in the coupling piece main body so that the height L2 between the upper flange portion 211 ′ and the lower edge portion 214a ′ of the insertion opening 214 ′ is substantially the same as the height of the floor beam 222 ′. ing.
[0047]
Next, the operation of the second embodiment will be described. In addition to the function and effect of the first embodiment, when the floor beam 222 ′ and the beam member 223 ′ are coupled by the coupling piece 210 ′, the upper surface of the floor beam 222 ′ is higher than that of the floor beam 222. When the base plate 261 ′ and the tatami mat 262 ′ are laid on the floor beam 222 ′, the tatami mat 262 ′ is flush with the surface of the flooring 262. And even if the sill 263 is arranged between the flooring 262 and the tatami 262 ', it becomes almost the same plane, so that a barrier-free building can be easily obtained.
[0048]
Other configurations and operational effects are substantially the same as those of the first embodiment, and thus description thereof is omitted.
[0049]
[Example 3]
FIG. 7 shows Example 3 of Embodiment 1 of the present invention, and the same or equivalent parts as in Embodiment 1 will be described with the same reference numerals in the last two digits.
[0050]
Explaining the configuration, in Example 3, the specification of one of the two adjacent building units is used as a washroom, and the other is used as a bathroom. The coupling structure is applied to the coupling portion.
[0051]
The configuration will be described. In FIG. 7 of the third embodiment, the floor girder constituting the floor of the building unit constituting the washroom is denoted by reference numeral 321, and the floor girder constituting the floor of the building unit constituting the bathroom is denoted by reference numeral 321 ′. Each is shown. Although not shown in the drawing, each building unit is assembled with housing equipment corresponding to each use such as a wash basin, a bath tub, and a shower.
[0052]
The floor portion of the building unit constituting the washroom includes a floor beam 321 and another floor beam arranged in parallel therewith. The floor of the building unit constituting the bathroom includes a floor beam 321 ′ and another floor beam arranged in parallel therewith.
[0053]
The floor beam 322 is disposed between the floor beam 321 and the other floor beam. Both ends of the floor beam 322 are coupled to these floor beams by a coupling piece 310. The floor beam 322 ′ is also arranged between the beam beam 321 ′ and one outer floor beam, and both ends thereof are coupled to these floor beams by a coupling piece 310 ′.
[0054]
A base plate 361 is laid on the floor beam 322, and a flooring 362 is laid on the base plate 361.
[0055]
A base plate 361 ′ is laid on the floor beam 322 ′. The trap 365 'is fixed to a bathroom substrate 361'. Although not shown, the bottom wall of the trap 365 'is connected to bathroom piping. The waterproof plate 371 ′ is fixed to the substrate 361 ′ via a joist 369 ′ and a bundle 373 ′. The substrate 371 ′ is supported on the base plate 361 ′ by the height adjuster 364 ′, and is moved up and down together with the trap 365 ′, the waterproof plate 372 ′, the joist 369 ′ and the bundle 373 ′ by the height adjuster 361 ′. Can do.
[0056]
Further, a rail 366 ′ and a saw 368 ′ are arranged in parallel inside the trap 365 ′ and are fixed to the trap 365 ′. The sliding door 367 ′ is composed of three pieces, and the guide at the lower edge is fitted into the rail 366 ′, the guide at the upper edge is fitted into the rail at the ceiling 130, and slides in the front-rear direction of the drawing sheet. can do.
[0057]
The coupling piece 310 in the building unit serving as a washroom is configured in the same manner as the coupling piece 10 described with reference to FIGS. However, the connecting piece 310 ′ in the building unit that becomes the bathroom is different only in the insertion opening 314 ′. In the insertion opening 314 ′, the height L3 between the upper flange portion 311 ′ and the lower edge portion 314a ′ of the insertion opening 314 ′ is longer than the height H3 of the floor beam 322 ′. The floor beam 322 ′ is fitted to the insertion opening 314 ′ by bringing the lower surface portion 322b ′ into contact with the lower edge portion 314a ′ of the insertion opening 314 ′ or the inner surface of the lower flange portion 312 ′, and the side surface portion 313 ′ and the lower flange are fitted. The portion 312 ′ is coupled by welding or the like.
[0058]
Next, the operation of the third embodiment will be described. In addition to the effects of the first embodiment, the floor beam 322 ′ on the bathroom side is lower than the floor beam 322 on the washroom side, so that the base plate 361 ′, the trap 365 ′, and the like are placed on the floor beam. Even if it is installed at 322 ′, the waterproof plate 372 ′ serving as the floor of the bathroom and the floor 362 of the washroom can be flush with each other.
[0059]
Other configurations and operational effects are substantially the same as those of the first embodiment, and thus description thereof is omitted.
[0060]
Second Embodiment of the Invention
FIG. 8 shows a second embodiment of the joint structure used in these joint structures, floor structures and unit buildings.
[0061]
This beam coupling measure differs from the coupling structure of the first embodiment only in the configuration of the coupling piece.
[0062]
In FIG. 8, the connecting piece is generally indicated by reference numeral 410, the large beam is indicated by 421, and the small beam is indicated by 422.
[0063]
The coupling piece 410 includes an upper flange portion 411, a lower flange portion 412 arranged in parallel with the upper flange portion 411, and an upper flange portion 411, similarly to the coupling piece described as the first embodiment with reference to FIG. A side surface portion 413 that connects the lower flange portion 412 is provided, and an insertion opening 414 is provided in the upper flange portion 411 and the side surface portion 413. However, in this coupling piece 410, a pair of bracket portions 415 are provided on the side surface portion 413. These bracket portions 415 are arranged on the side surface portion 413 along both side edge portions of the insertion opening 414, and are coupled to this by welding or the like.
[0064]
The coupling piece 410 is coupled to the beam 421 by fitting the large beam 421 in a space formed by the upper flange portion 411, the lower flange portion 412 and the side surface portion 413 and welding them. Further, the beam 422 is dropped into the insertion opening 414 from above the portion of the insertion opening 414 of the coupling piece 410 located at the upper flange portion 411, and fixed to the bracket portion 415 with a bolt 423, a nut 424, or the like. Coupled to piece 410.
[0065]
Next, the operation of the second embodiment will be described. In addition to the operational effects of the first embodiment, the beam 422 and the coupling piece 410 can be coupled more firmly than the coupling structure of the first embodiment. The coupling piece 410 can be coupled even if the beam 422 is made of wood. That is, the wood beam is dropped into the insertion opening 414 from above the portion of the insertion opening 414 of the coupling piece 410 that is located at the upper flange portion 411, and the wood beam and the bracket portion 415 are attached by bolts 423, nuts 424, nails, and the like. Conclude.
[0066]
Other configurations and operational effects are substantially the same as those of the first embodiment, and thus description thereof is omitted.
[0067]
In the embodiment described above, the connecting pieces 10, 210, 310, and 410 are arranged in parallel to the upper flange portions 11, 211, 311, and 411, with the portions connected to the one beams 21, 221, 321, and 421. The lower flange portions 12, 212, 312, 412 and the side surface portions 13, 213, 313, 413 that connect the end edges of the upper and lower flange portions, for example, the end of the upper flange portion and the upper flange portion The ceiling portion 130 shown in FIG. 4 has a configuration in which the upper flange portion is joined to the upper surface portion of the beam and the free edge of the side portion is joined to the lower surface portion of the beam. Modifications may be made without departing from the present invention, such as combining the ceiling large beam 131 and the ceiling small beam 132 constituting the above.
[0068]
【The invention's effect】
In the connection structure according to claim 1, the height of the horizontal member is changed by changing the height of the insertion opening, and the height of the horizontal member is changed. When a connecting piece having a different insertion opening height is prepared for use in a floor or ceiling, a floor or ceiling having a height corresponding to the design purpose can be obtained. And since the horizontal member is positioned by the edge part that forms the insertion opening of the coupling piece, and the positioning work of the horizontal member is not particularly required, the joining work of the horizontal member and the coupling piece can be easily performed. it can.
[0069]
In the coupling structure of claim 2, since the horizontal member is fitted into the insertion opening only by dropping the horizontal member from the upper part into the insertion opening of the coupling piece, it is positioned by hitting the lower edge of the insertion opening at the same time. Work can be done more easily.
[0070]
In the connection structure of claim 3, even if the horizontal member is made of wood, it can be connected to the beam by being fixed to the bracket portion with bolts, nails or the like.
[0071]
The floor structure according to claim 4 can easily obtain a floor having a height corresponding to the specifications of each room and the house equipment to be mounted, and can eliminate the level difference of the floor surface.
[0072]
The unit building of claim 5 is not only capable of making the height of the floor and / or ceiling different in some of the building units, but also has a level difference between the adjacent building units and the height of the floor surface. Can also be resolved.
[Brief description of the drawings]
FIG. 1 is a plan view showing an embodiment of a coupling structure according to Embodiment 1 of the present invention.
FIG. 2 is a cross-sectional view taken along line AA in FIG.
FIG. 3 is an exploded perspective view of the coupling structure shown in FIG.
FIG. 4 is an exploded perspective view of a building unit constituting the unit building according to the first embodiment of the present invention.
FIG. 5 is a cross-sectional view showing the floor structure of Example 1 of Embodiment 1 of the present invention.
FIG. 6 is a cross-sectional view showing a floor structure of example 2 of embodiment 1 of the present invention.
FIG. 7 is a cross-sectional view showing a floor structure of Example 3 of Embodiment 1 of the present invention.
FIG. 8 is a perspective view showing a coupling structure according to a second embodiment of the present invention.
FIG. 9 is an explanatory view showing a conventional ceiling beam coupling structure.
FIG. 10 is an explanatory view showing a conventional floor beam coupling structure.
[Explanation of symbols]
10, 110, 210, 310, 410 ... coupling piece
11, 111, 211, 311, 411 ... upper flange part
12, 112, 212, 312, 412 ... lower flange portion
13, 113, 213, 313, 413 ... side surface
14, 114, 214, 314, 414 ... insertion opening
14a, 114a, 214a, 314a ... edge of the insertion opening
21, 22, 421, 422 ... Beam
120 ... Floor
121, 221, 321, 421 ... Floor girder (beam)
122, 222, 322, 422 ... Floor beam (horizontal material)
130 ... Ceiling
131 ... Ceiling beam
132 ... ceiling beam
415 ... Bracket part
L, L1, L2, L3 ... Height of insertion opening

Claims (5)

A horizontal member such as a small beam, joist, or field edge is connected to the beam via a connecting piece, and the connecting piece has an upper flange portion, a lower flange portion, and a side portion that are connected to the beam, and the side portion is a horizontal member. A coupling structure characterized by comprising an insertion opening having an edge portion for fitting the end portion of the frame and having an edge portion for supporting the horizontal member. The coupling structure according to claim 1, wherein the insertion opening of the coupling piece has an upper portion opened to the outside. The coupling structure according to claim 1 or 2, wherein the side surface portion of the coupling piece includes a bracket portion that is disposed along the insertion opening and is coupled to the horizontal member. A floor structure comprising the coupling structure according to claim 1, 2 or 3, wherein the height of the horizontal member is changed by changing the insertion opening height of the coupling piece in a part of the floor. A floor structure characterized by being changed. A unit building in which a plurality of building units each having the coupling structure according to claim 1, 2 or 3 on the floor are arranged side by side, and in some building units, the insertion opening height of the coupling piece is A unit building characterized in that the height of the horizontal member is changed by changing the height.

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