JP3797579B2 - Unit building with balcony and its construction method - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a unit building with a balcony provided with a balcony on a side of a building main body configured by combining a plurality of building units, and a method for constructing the unit building.
[0002]
[Prior art]
Japanese Unexamined Patent Publication No. 8-82010 discloses a unit building with a balcony provided with a balcony on the side of a building body configured by combining a plurality of building units. In general, a pergola support structure is known as a structure for supporting a lightweight roof with a pillar (Japanese Patent Publication No. 3-39155).
[0003]
[Problems to be solved by the invention]
In the former unit building with a balcony, when the upper part of the balcony space is covered with a roof, a pillar supporting the load of the roof is erected from the balcony body. And this pillar is erected at the corner of the balcony and is placed directly above the pillar of the building unit directly below, so the load on the roof partly passes through the balcony pillar and goes to the pillar of the building unit directly below There is no problem because it is supported. However, if the length of the balcony space covered by the roof is changed by changing the length of the roof ridge, the standing position of the balcony pillar supporting the roof is changed. If it does so, it will become impossible to support the load of a roof on the pillar of the building unit directly under. Moreover, it is not described how the load of the roof is transmitted to the building unit on the lower floor through the balcony pillar.
[0004]
In the latter pergola support structure described above, a lightweight roof can be supported, but a heavy structure such as a roof of a general house cannot be supported because the structural strength is low.
[0005]
The subject of this invention is made in view of the above-mentioned situation, and provides the unit building with a balcony which can support reliably some load of the roof transmitted from a balcony pillar, and its construction method. There is.
[0006]
[Means for Solving the Problems]
According to the first aspect of the present invention, a balcony is installed on the side of a building body configured by combining a plurality of building units, the building unit is installed below the balcony, and the balcony is located above the building body. In a unit building with a balcony covered with a roof, a column support beam is installed on the ceiling frame of the building unit arranged below the balcony, and the balcony column supporting a part of the load on the roof is the column support beam. Concatenated and configured.
[0007]
The invention according to claim 2 is the invention according to claim 1, wherein the roof frame of the building unit disposed below the balcony is provided with a roof reinforcing beam between a pair of beams of the ceiling frame. A column support beam is fixed between the roof reinforcing beam and the beam of the ceiling frame.
[0008]
The invention according to claim 3 is the invention according to claim 1, wherein a column support beam is fixed between a pair of beams of the ceiling frame on the ceiling frame of the building unit arranged below the balcony. It is.
[0009]
The invention according to claim 4 is the invention according to any one of claims 1 to 3, wherein a plurality of the column support beams are installed on a ceiling frame of a building unit disposed below the balcony, and each column support beam is supported. Each of the multiple balcony pillars is connected to the beam.
[0010]
The invention according to claim 5 is the invention according to any one of claims 1 to 4, wherein a folding roof is attached to the building unit arranged below the balcony, and the column support beam and the folding roof A joint pillar is attached between the ridge and the bolt attached to the joint pillar penetrates the ridge of the engraved roof, and the balcony pillar is fixed to the bolt that penetrates the crease roof. .
[0011]
The invention according to claim 6 is the invention according to any one of claims 1 to 5, wherein the balcony is composed of a substantially rectangular frame and a balcony floor attached to the frame. The frame main body is partially cut away, and a short piece is detachably attached to the notched portion.
[0012]
According to the seventh aspect of the present invention, a balcony is installed on the side of a building body configured by combining a plurality of building units, the building unit is installed below the balcony, and the balcony is located above the building body. In the construction method of unit buildings with balconies covered by roofs, pillar support beams are installed at the factory on the ceiling frame of the building units arranged below the balconies, and a plurality of building units are combined at the construction site. After the building body is constructed, a balcony column is connected to the column support beam, and the column support beam supports a part of the load on the roof via the balcony column.
[0013]
According to an eighth aspect of the present invention, a balcony is installed on the side of a building body configured by combining a plurality of building units, the building unit is installed below the balcony, and the balcony is located above the building body. In the construction method of a unit building with a balcony covered with a roof, a column support beam is installed at the factory on the ceiling frame of the building unit arranged below the balcony, and a joint column is attached to this column support beam. After constructing the building body by combining multiple building units, the bolts attached to the peak of the joint pillar are passed through the holes provided in the peak of the folded roof and the folded roof is moved to the balcony. Attached to the building unit placed below, the balcony pillar is attached to the bolt protruding from the folding roof, and the load on the roof A part of the balcony pillars, folding version roof, through a joint column, in which was to be supported by pillars support beam.
[0014]
The invention according to claim 9 is the invention according to claim 7 or 8, wherein the balcony is a frame body partially cut away and a short piece detachably attached to the notched portion of the frame body. After the frame body, short pieces and balcony floor are manufactured at the factory, and the balcony pillar is attached at the construction site, the balcony pillar is cut from the notched part. It is placed inside the frame body, the frame body is mounted on the roof, the short piece is mounted on the notched portion of the frame body, and then the balcony floor is mounted on the frame.
[0015]
(Function)
The invention described in claim 1 has the following action.
Since the column support beam is installed on the ceiling frame of the building unit placed below the balcony and the balcony column supporting a part of the load on the roof is connected to the column support beam, the load on the roof Part of the building unit can be transmitted to the ceiling frame of the building unit for reliable support, and at the same time, part of vibrations and transitions generated on the roof and balcony can be transmitted to the ceiling frame of the roof unit to mitigate it. be able to.
[0016]
The invention according to claim 2 has the following effects.
In the ceiling frame of the building unit arranged below the balcony, a roof reinforcing beam is installed between a pair of beams of the ceiling frame, and a column support beam is fixed between the roof reinforcing beam and the beam of the ceiling frame. Therefore, the column support beam is fixed between the existing roof reinforcement beam and the beam installed between the pair of beams in the ceiling frame of the building unit, which facilitates the installation of the column support beam and increases the cost. There is no invitation.
[0017]
The invention according to claim 3 has the following effects.
Since the column support beam is fixed between a pair of beams on the ceiling frame of the building unit, the column support beam can transmit the load of the roof to the ceiling frame and support it reliably, and can also prevent the beam from bending. .
[0018]
The invention according to claim 4 has the following effects.
Since part of the load on the roof was supported by multiple balcony columns connected to each of the column support beams installed on the ceiling frame of the building unit, part of the load on the roof was distributed. Can be supported and safety can be improved.
[0019]
The invention according to claim 5 has the following effects.
The building unit placed below the balcony has an engraved roof, a joint column is installed between the column support beam and the mountain of the engraved roof, and the bolts attached to the joint column are engraved. Since the balcony column is fixed to the bolt that penetrates the mountain of the roof and penetrates the folding roof, a part of the load of the roof is the column support beam from the balcony column to the folding roof and the joint column. It can be reliably supported by transmitting to. Moreover, there is an origami roof between the building unit arranged below the balcony and the balcony. Therefore, even if rain falls on the balcony floor due to wind or the like, rainwater or the like does not leak into the building unit arranged below the balcony.
Moreover, since it is only necessary to attach a joint column under the folding roof and attach a balcony column on the folding roof, it is not necessary to cut out the folding roof and the workability is good.
[0020]
The invention described in claim 6 has the following action.
Usually, a balcony has a frame that is framed in a substantially rectangular shape at the periphery, and the balcony pillar is attached to the inside of the balcony frame. Therefore, in the past, the balcony pillar was attached after the frame was attached, or the frame was assembled after the balcony pillar was attached, but the work of attaching the balcony pillar after attaching the frame is bent forward to a position lower than the frame. Because it is installed, it is extremely difficult to work. Also, it was inconvenient to install the frame after assembling the balcony pillar while assembling the frame.
[0021]
According to a sixth aspect of the present invention, the balcony comprises a frame having a substantially rectangular frame and a balcony floor attached to the frame, and a frame main body in which the substantially rectangular frame is partially cut out. Because it consists of a short piece that is detachably attached to the part that has been attached, even after attaching the balcony pillar, insert the balcony pillar into the frame from the notched part of the balcony body manufactured at the factory, and attach the frame body After that, the frame may be completed by attaching a short piece to the notched portion of the balcony body.
[0022]
Thus, since the balcony pillar can be attached before attaching the frame, the forward bending work is eliminated and the work is easy. Also, the frame main body and the short piece can be produced at the factory, and on-site work is reduced by simply attaching the short piece to the frame main body.
[0023]
The invention described in claim 7 has the following action.
Since the column support beam is installed in advance in the ceiling frame of the building unit arranged below the balcony at the factory, the mounting accuracy of the column support beam can be improved, and the building unit to which the column support beam is attached can be improved. In addition to stabilizing the quality, it is not necessary to install the column support beams on the ceiling frame of the building unit at the construction site, thereby shortening the construction period in the field.
[0024]
The invention according to claim 8 has the following action.
Since the column support beam is installed in advance in the ceiling frame of the building unit located below the balcony at the factory, and the joint column is attached to this column support beam, the mounting accuracy of the column support beam and the joint column is improved. It is possible to stabilize the quality of the building unit to which the column support beam and the joint column are attached. At the construction site, the balcony column may be attached to the bolt protruding from the folding roof, and the column support beam and the joint column are installed in the building unit. The installation work on the ceiling frame is no longer necessary, and the construction period at the site can be shortened.
[0025]
The invention according to claim 9 has the following effects.
The frame body, short piece and balcony floor were manufactured at the factory, and after installing the balcony pillar at the construction site, the frame body was mounted on the roof, the short piece was attached, and then the balcony floor was attached to the frame. You can attach a balcony pillar without having to. Moreover, since the balcony pillar is inserted into the frame body from the cutout portion, the frame body is attached to the roof, and the short piece is attached to the cutout portion of the frame main body, the frame main body and the short piece can be manufactured at the factory. Therefore, it is only necessary to attach the short piece to the frame body at the construction site, and there is no need to assemble the frame.
[0026]
Thus, since the balcony floor can be manufactured in the factory, the frame can be assembled with high dimensional accuracy, and the balcony pillar, frame, and balcony floor can be easily attached at the construction site without bending forward. Therefore, on-site construction man-hours and construction time can be shortened.
[0027]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
(A) First embodiment
FIG. 1 is a side view around a balcony showing a first embodiment of a unit building with a balcony according to the present invention. FIG. 2 is a partial plan view of the unit building with a balcony in FIG. 1. FIG. 3 is a plan view showing a ceiling frame of a building unit disposed below the balcony. FIG. 4 is an enlarged plan view of a portion IV in FIG. FIG. 5 is a cross-sectional view taken along line VV in FIG. FIG. 6 is a front view illustrating a modified example of the connection structure between the balcony column and the column support beam. 7 is a view taken in the direction of arrow VII in FIG.
[0028]
As shown in FIGS. 1 and 2, the unit building 10 is configured by combining a plurality of building units 11 into a building main body 12 on the second floor, and on the side of the uppermost floor of the building main body 12. It is a unit building with a balcony provided with a balcony 13. In this unit building 10 with a balcony, a part of the roof 14 (the hatched portion in FIGS. 1 and 2) covering the building main body 12 is configured to cover the balcony 13. Part is supported.
[0029]
As shown in FIG. 3, the ceiling frame 16 of the building unit 11 (hereinafter referred to as the balcony lower floor unit 11A) arranged immediately below the balcony 13 has a frame structure having a pair of girder beams 17 and a pair of end beams 18. Further, a roof reinforcing beam 19 for reinforcing the ceiling frame 16 is installed between the beam beams 17, and a column support beam 20 is fixed to the roof reinforcing beam 19. The column support beam 20 is disposed at a position corresponding to the balcony column 15 and can be connected to the balcony column 15. Accordingly, a part of the load on the roof 14 can be supported by the ceiling frame 16 via the column support beam 20.
[0030]
The roof reinforcing beam 19 is formed by fixing one end of a plurality of short members 22 orthogonally to a long member 21 whose both ends are fixed to a pair of girder beams 17, and the other end of the short member 22. Is fixed to the end beam 18 to reinforce the ceiling frame 16.
[0031]
As shown in FIGS. 4 and 5, the column support beam 20 is bolted with one end orthogonal to the long member 21 and the other end with the gusset plate 23, similar to the short member 22 of the roof reinforcing beam 19. The bolt is fixed to the end beam 18 via the bolt. A joint column 24 is erected on the column support beam 20 using a bolt 25, and the balcony column 15 is fixed to the joint column 24. The balcony column 15 is fixed to the joint column 24 with bolts 26 as shown in FIG. The balcony floor 27 of the balcony 13 is penetrated by the joint pillar 24, and a handrail panel 28 is erected on the side periphery.
[0032]
The above-mentioned balcony lower floor unit 11A is manufactured by fixing the roof reinforcing beam 19 and the column support beam 20 to the ceiling frame 16 at the factory together with the other building units 11. Further, at the construction site, the joint column 24 is arranged on the column support beam 20 of the balcony lower floor unit 11A, and the balcony 13 is constructed.
[0033]
In addition, the code | symbol 29 in FIG. 5 is a ceiling joist, and the code | symbol 30 shows the folding plate roof of 11 A of balcony lower floor units.
[0034]
Next, the construction method of the unit building 10 will be described.
(1) In the factory, the building unit 11 and the balcony lower floor unit 11A are manufactured. At this time, the roof reinforcing beam 19 and the column supporting beam 20 are also fixed to the ceiling frame 16 of the balcony lower floor unit 11A.
[0035]
(2) The building unit 11 and the balcony lower floor unit 11A are transported to the construction site and combined to construct the building body 12.
[0036]
(3) After the joint column 24 is fixed and connected to the column support beam 20 in the ceiling frame 16 of the balcony lower floor unit 11A using the bolt 25, and the balcony floor 27 and the handrail panel 28 are further disposed. Then, the balcony column 15 is connected to the joint column 24 using the bolt 26 to construct the balcony 13.
[0037]
(4) Finally, the building body 12 and the balcony 13 are covered with the roof 14 to complete the construction of the unit building 10. At this time, a part of the load of the roof 14 is transmitted to and supported by the column support beam 20 via the balcony column 15, that is, the ceiling frame 16 of the balcony lower floor unit 11 </ b> A.
[0038]
According to the said embodiment, there exists the following effect (a)-(c).
(A) Since the balcony column 15 is connected to the column support beam 20 installed on the ceiling frame 16 of the balcony lower floor unit 11A and a part of the load on the roof 14 is supported, a part of the load on the roof 14 is supported. Can be transmitted to the ceiling frame 16 of the balcony lower floor unit 11A and reliably supported, and at the same time, a part of vibrations and transitions generated on the roof 14 and the balcony 13 can be transmitted to the ceiling frame 16 of the balcony lower floor unit 11A. And can be relaxed.
[0039]
(B) Since the column support beam 20 is fixed to the existing roof reinforcing beam 19 installed between the pair of beam beams 17 in the ceiling frame 16 of the balcony lower floor unit 11A, the column support beam 20 can be easily attached. Without increasing the cost.
[0040]
(C) Since the column support beam 20 is previously installed at the factory on the ceiling frame 16 of the balcony lower floor unit 11A disposed below the balcony 13, the mounting strength of the column support beam 20 can be improved. The quality of the balcony lower floor unit 11A to which the column support beam 20 is attached can be stabilized, and the work of installing the column support beam 20 on the ceiling frame 16 of the balcony lower floor unit 11A at the construction site is not required. The construction period can be shortened.
[0041]
(B) Second embodiment
FIG. 8 is a plan view around a balcony showing a second embodiment of a unit building with a balcony according to the present invention. FIG. 9 is a plan view showing a ceiling frame of a building unit arranged below the balcony of FIG. FIG. 10 is an enlarged plan view of a portion X in FIG. 11 is a cross-sectional view taken along line XI-XI in FIG. 12 is a view taken in the direction of arrows XII in FIG. In the second embodiment, the same parts as those in the first embodiment are denoted by the same reference numerals, and the description thereof is omitted.
[0042]
As shown in FIGS. 8 and 9, in the unit building 40 with a balcony, no roof reinforcing beam is installed on the ceiling frame 43 of the balcony lower floor unit 42 arranged immediately below the balcony 41, and the pair of girder beams 17 is not installed. The column support beam 44 is fixed to the frame.
[0043]
As shown in FIGS. 10 to 12, the column support columns 44 are fixed to the pair of beams 17 of the ceiling frame 43 through a gusset plate 45. After the joint pillar 24 is bolted to the gusset plate 45 and the balcony floor 27 is disposed through the joint pillar 24, the balcony pillar 15 is bolted to the joint pillar 24.
[0044]
According to the unit building 40 with a balcony, the effects (a) and (c) of the first embodiment are exhibited, and the following effect (d) is achieved.
(D) Since the column support beam 44 is fixed between the pair of beam beams 17 in the ceiling frame 43 of the balcony lower floor unit 42, the load of the roof 14 is transmitted to the ceiling frame 43 by this column support beam 42. Therefore, the beam 17 can be prevented from bending.
[0045]
(C) Third embodiment
FIG. 13 is a plan view around a balcony showing a third embodiment of a unit building with a balcony according to the present invention. FIG. 14 is a plan view showing a ceiling frame of a building unit arranged below the balcony of FIG. In the third embodiment, the same parts as those in the first embodiment are denoted by the same reference numerals and the description thereof is omitted.
[0046]
In the balcony 51 of the unit building 50 with a balcony, a part of the load of the roof 14 is supported by, for example, two balcony pillars 15. On the other hand, two column support beams 20 are fixed to the roof reinforcing beam 19 installed on the roof frame of the balcony lower floor unit 52 arranged directly below the balcony 51, and each of these column support beams 20 has a balcony. The columns 15 are connected through joint columns 24.
[0047]
Therefore, according to the unit building with a balcony 50, the effect (e) is obtained in addition to the effects (a), (b) and (c) of the first embodiment.
(E) Part of the load on the roof 14 is supported by the two balcony columns 15 connected to the column support beams 20 respectively installed on the ceiling frame 53 of the balcony lower floor unit 52. A part of the load of the roof 14 can be dispersed and supported, and the safety can be improved.
[0048]
(D) Fourth embodiment
FIGS. 15-22 shows 4th Embodiment of the unit building with a balcony concerning this invention. FIG. 15 (a) is a side view showing a connection structure between a balcony column and a column support beam, (b) is an enlarged side view showing the XV part of (b), (c) is a front view of (b), (D) is an enlarged front view of the XVI part of (c). FIG. 16 (a) is a side view showing a connection structure between a balcony pillar and a roof frame, and (b) is a front view of (a). FIG. 17 (a) is a front view of a balcony pillar, (b) is a side view of (a), and (c) is a bottom view of (a). 18A is a front view of the joint column, and FIG. 18B is a plan view of FIG. FIG. 19 (a) is an explanatory view showing the mounting structure of the column support beam in an exploded manner, (b) is an explanatory view showing a state in which the bolt of the joint column is passed through the folded roof, and (c) is sealed. It is explanatory drawing which shows the state which exists. FIG. 20 is an explanatory view showing a state in which the balcony pillar is attached to the bolt. FIG. 21 is an explanatory view showing a state in which the roof frame is attached. FIG. 22 is an explanatory view showing a state in which the balcony pillar is attached to the roof frame.
[0049]
This 4th Embodiment demonstrates an example of the connection structure of the balcony pillar in the 1st-3rd embodiment. Parts similar to those of the first embodiment are denoted by the same reference numerals, and description thereof is omitted.
[0050]
As shown in FIG. 15, in the building 60 with a balcony, a column support beam 64 is fixed to a pair of beam beams 17 and 17 of a balcony lower floor unit 62 arranged immediately below the balcony 90 via a gusset plate 64.
The balcony 61 includes a balcony floor 67 and a handrail panel 69.
An origami roof 65 is mounted on the balcony lower floor unit 62.
[0051]
As shown in FIG. 18, the joint column 80 is provided on a substrate 81 and on both sides of the substrate 81, and a support portion 82 having a height substantially equal to the gap between the column support beam 63 and the mountain 651 of the folded roof 65, It consists of three reinforcing plates 84 erected between the support portions 83. The distance between the support portions 82 on both sides is substantially equal to the distance between the mountain 651 of the stencil roof 65 and the adjacent mountain 651. Accordingly, the support portions 82 on both sides can be inserted into the mountain 651 of the folded plate roof 65 and the adjacent mountain 651 from below. A bolt 85 is attached to the support portion 83 with the screw portion 851 facing upward. The substrate 81 is provided with four through holes 811.
[0052]
As shown in FIG. 15, the joint column 80 is attached to a column support beam 63. This mounting structure will be described. The fixed plate 68 includes a horizontal plate 681 and two hanging plates 682 separated by a distance slightly larger than the width of the column support beam 63 attached to the horizontal plate 681. The horizontal plate 681 is provided with a through hole. It has been. The fixed plate 68 is attached to the column support beam 63 with the vertical plate 68 sandwiching the column support beam 63, and the joint column 80 is mounted on the fixed plate 68 and provided on the substrate 81 of the joint column 80. The joint column 80 is fixed to the column support beam 63 by bolts and nuts penetrating from the through hole 911 to the through hole provided in the horizontal plate 681.
[0053]
And the folding plate roof 65 is attached so that the mountain 651 of the folding plate roof 65 enters the support portions 83, 83 on both sides, and from the through hole 652 provided in the mountain 651 of the printing plate roof 65. The screw portion 851 penetrates and protrudes.
[0054]
The folded roof 65 is slightly inclined because it is necessary to flow rainwater. Accordingly, the gap between the folded roof 65 and the column support beam 63 is slightly different. Therefore, when the folding roof 65 is attached to the threaded portion 851, the plurality of nuts 853 screwed into the screw rod 851 are moved up and down to firmly attach the folding roof 65 to the column support beam 63. Can be attached.
[0055]
As shown in FIG. 17, the balcony column 70 includes a column main body 71 having a substantially square cross section, a rectangular plate substrate 72 attached to the lower end surface of the column main body 71, and an upper end of the column main body 71. It consists of a mounting plate 73 made of a small L-shaped piece.
As shown in FIG. 15C, the substrate 72 has a length that spans between a mountain 651 of the folded plate roof 65 and an adjacent mountain 651, and the substrate 72 spans the folded plate roof 65. When handed over, a through hole 721 is provided at substantially the same position as the through hole 652 provided in the mountain 651 of the folded roof 65. The mounting plate 73 includes a horizontal plate 731 and a vertical plate 732, and the horizontal plate 731 is attached to the upper end surface of the balcony column 15.
[0056]
The horizontal plate 731 is provided with a pin 735, and the vertical plate 732 is provided with a through hole 736.
A decorative plate 74 is attached around the balcony column 70. Further, a lower parting edge 75 is attached to the lower end portion of the balcony column 70 so as to make it difficult to see the through hole provided in the balcony floor 65, and the eaves ceiling 95 is provided to the upper end portion of the balcony column 70. An upper parting edge 76 is attached to make the through hole difficult to see.
[0057]
The balcony column 70 is attached to a threaded portion 851 of a bolt 85 protruding from the folded roof 65. This mounting structure will be described. The base of the balcony pillar 70 passes through a through hole provided in the balcony floor 68 of the balcony 61 and reaches the folded roof 65. Then, the screw portion 851 of the bolt 85 of the joint column 80 protruding from the folded roof 65 is inserted into the through hole 721 of the substrate 72 of the balcony column 70 and is fixed by the nut 853 screwed into the screw portion 851. .
[0058]
A folded roof 14 covering the building body 12 is provided above the balcony 61, and the folded roof 14 is mounted on a roof frame 141 as shown in FIG.
The roof frame 141 is a long steel body having a C-shaped cross section.
The upper end of the balcony column 70 is attached to the roof frame 141. This mounting structure will be described. The upper end portion of the balcony column 70 passes through a through hole provided in the eaves ceiling 149 and reaches the roof frame 141. And the pin 735 of the horizontal board 731 provided in the upper end surface of the balcony pillar 70 is inserted in the through-hole 143 provided in the lower flange 142 of the roof frame 141 which consists of an elongate body with a C-shaped cross section, and is perpendicular | vertical. The plate 732 is fixed along the web 144 with bolts and nuts inserted into the through holes 736 of the vertical plate 732 and the through holes 145 provided in the web 63.
[0059]
Next, the attachment method of this balcony pillar 61 is demonstrated.
The factory manufactures building units including the balcony lower floor unit 62, balcony pillars 70 folded roofs 65 and 90, roof frame 141, balcony 61, and the like.
At this time, a gusset plate 65 is welded and attached to the opposite beam beams 17 and 17 of the balcony lower floor unit 62, and a column support beam 63 is bolted to the gusset plate 64. As shown in (c), the fixing plate 68 is attached, and the joint pillar 80 is fixed to the fixing plate 68 by bolting.
[0060]
Thus, since the column support beam 63 and the joint column 80 can be installed in advance on the beam beams 17 and 17 of the balcony lower floor unit 62 at a factory or the like, the mounting accuracy of the column support beam 63 and the joint column 80 is improved. The quality of the balcony lower floor unit 62 to which the column support beam 63 and the joint column 80 are attached can be stabilized, and the column support beam 63 and the joint column 80 are installed on the beam beams 17 and 17 at the construction site. Since no work is required, the construction period at the site can be shortened.
[0061]
The building unit including the balcony lower floor unit 62 manufactured in this way, the balcony column 70, the folded roof 14, the roof frame 141, the balcony 61, etc. are transported to the construction site, and the building unit including the balcony lower floor unit 62 is installed. And assemble.
The folding roof 65 is attached on the support beam 64 of the balcony lower floor unit 62.
[0062]
At this time, as shown in FIG. 19A, the folding plate roof 65 is installed on the support portions 83 and 83 on both sides of the joint column 80 so as to cover the mountain 651 of the folding plate roof 65, and the folding plate. The threaded portion 851 is passed through the through-hole 652 provided in the mountain of the roof 65, and the pipe 69 is fitted into the threaded portion 851 as shown in FIG. Is fully penetrated and protruded.
At this time, the folded plate roof 65 is slightly inclined because rainwater needs to flow. Accordingly, the gap between the folded roof 65 and the column support beam 63 is slightly different. Therefore, when attaching the folding roof 65 to the screw portion 851, the plurality of nuts 853 screwed into the screw rod 851 are moved up and down to firmly attach the folding roof 65 to the column support beam 63. .
[0063]
Next, as shown in FIG. 19C, a sealing material 78 is applied around the screw portion 851 so that rainwater does not leak from the through hole 652.
Next, a balcony 61 is attached above the folding roof 65, and a balcony pillar 70 is inserted from a through hole provided in the floor 68 of the balcony 61, and protrudes from the folding roof 65 as shown in FIG. The threaded portion 851 is inserted into the through hole 721 of the substrate 72 of the balcony post 70 and fixed with a nut 853.
[0064]
Next, as shown in FIG. 21, the roof frame 141 of the folded roof 14 is lifted and the pin 735 provided on the horizontal plate 731 of the balcony pillar 70 is provided on the flange 142 of the roof frame 141 in the lifted state. The folded plate roof 14 is attached to the building body while being inserted into the through-hole 143.
Then, since the vertical plate 732 extends along the web 93, as shown in FIG. 22, a bolt is inserted into the through hole 736 of the vertical plate 732 and the through hole 145 provided in the web 144, and the nut screwed into this bolt. Attach the balcony pillar 70 by fixing with.
[0065]
Thereafter, the suspended state is released.
Then, the balcony pillar 70 is attached to the joint pillar 80 via the folded plate roof 65.
When the balcony 61 is attached in this way, a part of the load on the folded roof 14 is transmitted from the balcony column 70 to the column support beam 63 via the folded plate roof 65 and the joint column 80, and can be reliably supported. Moreover, there is a folded roof 65 between the balcony lower floor unit 62 and the balcony 61. Therefore, even if rain falls on the balcony floor 67 due to wind or the like, rainwater or the like does not leak into the balcony lower floor unit 62.
[0066]
(E) Fifth embodiment
23 and 24 show a fifth embodiment of a unit building with a balcony according to the present invention. FIG. 23 (a) is a plan view showing the frame of the balcony, (b) is an enlarged plan view showing the XVII part of (b), (c) is a side view of (b), and FIG. It is explanatory drawing which shows the state attached to the plate roof.
[0067]
When the fifth embodiment is compared with the fourth embodiment, the following points are different.
That is, in the fourth embodiment, the balcony pillar is inserted from the through hole provided in the balcony floor of the balcony, and the screw portion protruding from the folding roof is inserted into the through hole of the balcony pillar substrate. It is fixed with a nut. That is, the balcony pillar is attached after the balcony is attached. However, the fifth embodiment is different in that the balcony 90 is attached after the balcony pillar 71 is attached.
[0068]
The other parts are almost the same as those in the fourth embodiment, so that the mounting structure and construction method of this balcony 90 will be described, and the description of the other structures and construction methods will be omitted.
Note that the same parts as those in the fourth embodiment are denoted by the same reference numerals, and the description thereof is omitted.
[0069]
As shown in FIG. 24, the balcony 90 includes a frame 91, a balcony floor 95 attached to the frame 91, and a handrail panel 96 standing on the peripheral edge of the balcony floor.
As shown in FIG. 23, the frame 91 is framed in a substantially rectangular shape, and includes a frame main body 92 that is partially cut out, and a short piece 93 that is detachably attached to the cut out portion of the frame main body 92.
[0070]
The frame main body 92 has a frame 921 in which a steel material with a 60 mm length and a 60 mm width cross section is formed in a U shape, and a frame made of a steel material with a 60 mm length and 30 mm width cross section that is passed through the U-shaped opening. It consists of a body 922, a frame body 921 and six crosspieces 923 passed to the frame body 922, and a part of the beam 922 is cut out to a length of 240 mm.
[0071]
The short piece 93 is a steel material having a rectangular cross section with a length of 240 mm, a length of 60 mm, and a width of 30 mm.
Then, the short piece 93 is inserted into a part of the beam 922 that is partially cut out, and a connecting piece 94 having a U-shaped cross section is fitted to the connecting portion of the short piece 93 and the beam 922 from below, and a bolt 98 and a nut 99, the beam 922 and the short piece 93 are connected.
[0072]
The balcony floor 95 is inserted into the frame 91, and the peripheral edge of the balcony floor 95 is mounted on the frame 91 while being mounted on the frame 91. Further, the handrail panel 96 is attached to the frame 91 in a state where it is erected on the peripheral edge of the balcony floor 95.
[0073]
Next, the construction method of this balcony 90 is demonstrated.
At the factory, the frame body 921 is manufactured by assembling the frame body 921, the frame body 922, and the crosspiece 923.
Moreover, the short piece 93, the connection piece 94, the balcony floor 95, and the handrail panel 96 are manufactured.
In addition, building units are also manufactured.
These are then transported to the construction site.
[0074]
At the construction site, after assembling the building unit in the same manner as in the fourth embodiment, the balcony pillar 71 is erected.
Next, the frame main body 92 is lifted, the balcony pillar 71 is inserted from the notched portion of the frame main body 92, the frame main body 92 is attached above the folding roof 65, and the short piece 93 is inserted into the notched portion, The connecting piece 94 is fitted to the connecting portion of the short piece 93 and the beam 922, and the beam 922 and the short piece 93 are connected by the bolt 98 and the nut 99.
[0075]
Thereafter, the balcony floor 95 is attached to the frame 91, a handrail panel 96 is erected on the peripheral edge of the balcony floor 95, and the handrail panel 96 is attached to the frame 91.
Thus, since the frame main body 92 can be manufactured at the factory, the frame main body 92 can be assembled with high dimensional accuracy. Further, since the balcony column 71 is erected on the construction site, the frame main body 92 is attached, so that the balcony column 71 is erected. In doing so, it can be easily attached without bending forward, and the number of on-site construction man-hours and construction time can be shortened.
[0076]
Although the embodiment of the present invention has been described in detail with reference to the drawings, the specific configuration of the present invention is not limited to this embodiment, and there are design changes and the like without departing from the gist of the present invention. However, it is included in the present invention. For example, the roof reinforcement beam 19 and the column support beams 44 and 63 may be bridged and fixed between the pair of end beams 18 of the ceiling frames 16, 43, and 53. Further, the unit buildings with balcony 10, 40, 50, 60 may be on the third floor or higher.
[0077]
【The invention's effect】
As mentioned above, according to the unit building with a balcony concerning the present invention, and its construction method, a part of load of the roof transmitted from a balcony pillar can be supported certainly.
[Brief description of the drawings]
FIG. 1 is a side view around a balcony showing a first embodiment of a unit building with a balcony according to the present invention.
FIG. 2 is a partial plan view of the unit building with a balcony in FIG. 1;
FIG. 3 is a plan view showing a ceiling frame of a building unit disposed below the balcony.
4 is an enlarged plan view of a portion IV in FIG. 3. FIG.
5 is a cross-sectional view taken along line VV in FIG.
FIG. 6 is a front view illustrating a modified example of a connection structure between a balcony column and a column support beam.
7 is a view taken in the direction of arrow VII in FIG. 6;
FIG. 8 is a plan view around a balcony showing a second embodiment of a unit building with a balcony according to the present invention.
FIG. 9 is a plan view showing a ceiling frame of a building unit arranged below the balcony of FIG.
10 is an enlarged plan view of a portion X in FIG. 9;
11 is a cross-sectional view taken along line XI-XI in FIG.
12 is a view on arrow XII in FIG.
FIG. 13 is a plan view around a balcony showing a third embodiment of a unit building with a balcony according to the present invention.
14 is a plan view showing a ceiling frame of a building unit arranged below the balcony of FIG. 13;
FIGS. 15A and 15B are side views showing a connecting structure of a balcony column and a column post showing a fourth embodiment of a unit building with a balcony according to the present invention, and FIG. 15B is an XV section of FIG. (C) is a front view of (b), (d) is an enlarged front view of the XVI part of (c).
16A is a side view showing a connection structure between a balcony column and a roof frame, and FIG. 16B is a front view of FIG.
17A is a front view of a balcony column, FIG. 17B is a side view of FIG. 17A, and FIG. 17C is a bottom view of FIG.
18A is a front view of a joint column, and FIG. 18B is a plan view of FIG.
FIGS. 19A and 19B are explanatory diagrams showing a state in which the folding roof is attached to the column support beam, and FIG. 19B is an explanatory diagram showing a state in which the bolts of the joint columns are passed through the folding roof. ) Is an explanatory view showing a sealed state.
FIG. 20 is an explanatory view showing a state where a balcony post is attached to a screw rod.
FIG. 21 is an explanatory view showing a state where a roof frame is attached.
FIG. 22 is an explanatory view showing a state where a balcony pillar is attached to a roof frame.
23A is a plan view showing a frame of a balcony showing a fifth embodiment of a unit building with a balcony according to the present invention, and FIG. 23B is an enlarged plan view showing the XVII part of FIG. (C) is a side view of (b).
FIG. 24 is an explanatory view showing a state in which the balcony pillar is attached to the folded roof.
[Explanation of symbols]
10 Unit building with balcony
11 Building units
11A balcony lower floor unit
12 Building body
13 Balcony
14 Roof
15 Balcony pillar
16 Ceiling frame
17 Girder
19 Roof reinforcement beam
20 Column support beam
24 joint pillars
27 Balcony floor
40 Unit building with balcony
41 Balcony
42 Balcony lower floor unit
43 Ceiling frame
44 Column support beam
50 Unit with balcony
51 Balcony
52 Balcony lower floor unit
53 Ceiling frame
60 Building with balcony
61 Balcony
62 Balcony lower floor unit
63 Column support beam
65 Origami roof
68 Balcony floor
70 balcony pillar
80 Joint pillar
85 volts
90 Balcony
91 frames
92 Frame body
93 short pieces
95 balcony floor
96 Handrail panel

Claims (9)

A unit building with a balcony in which a balcony is installed on the side of a building body configured by combining a plurality of building units, the building unit is installed below the balcony, and the balcony is covered by the roof above the building body In
A column support beam is installed on a ceiling frame of a building unit disposed below the balcony, and a balcony column supporting a part of the load on the roof is connected to the column support beam. Unit building with balcony. On the ceiling frame of the building unit arranged below the balcony, a roof reinforcement beam is installed between a pair of beams of the ceiling frame, and a column support beam is fixed between the roof reinforcement beam and the beam of the ceiling frame. The building with a balcony according to claim 1. The building with a balcony according to claim 1, wherein a column support beam is fixed between a pair of beams of the ceiling frame on the ceiling frame of the building unit disposed below the balcony. 4. The column support beam according to claim 1, wherein a plurality of the column support beams are installed on a ceiling frame of a building unit disposed below the balcony, and each of the plurality of balcony columns is connected to each column support beam. A unit building with a balcony. The building unit placed below the balcony has a folded roof, a joint column is mounted between the column support beam and the mountain part of the folded roof, and the bolts attached to the joint column are folded. The unit building with a balcony according to any one of claims 1 to 4, wherein a balcony pillar is fixed to a bolt penetrating the mountain portion of the plate roof and penetrating the folding roof. The balcony is composed of a frame with a substantially rectangular frame, and a balcony floor attached to the frame. The unit building with a balcony according to any one of claims 1 to 5, comprising an attached short piece. A unit building with a balcony in which a balcony is installed on the side of a building body configured by combining a plurality of building units, the building unit is installed below the balcony, and the balcony is covered by the roof above the building body In the construction method of
A column support beam is installed at the factory on the ceiling frame of the building unit located below the balcony.
After building the building body by combining multiple building units at the construction site,
A construction method of a building unit with a balcony, wherein a balcony column is connected to the column support beam, and the column support beam supports a part of the load of the roof via the balcony column. A unit building with a balcony in which a balcony is installed on the side of a building body configured by combining a plurality of building units, the building unit is installed below the balcony, and the balcony is covered by the roof above the building body In the construction method of
A column support beam is installed at the factory on the ceiling frame of the building unit arranged below the balcony, and a joint column is attached to this column support beam.
After building the building body by combining multiple building units at the construction site,
Attach the stencil roof to the building unit installed below the balcony, through the bolts attached to the hills of the joint pillars, through the through holes provided in the hills of the stencil roof,
With a balcony characterized in that a balcony pillar is attached to a bolt protruding from the engraved roof, and a part of the load of the roof is supported by a column support beam via the balcony pillar, the engraved roof, and the joint pillar. Building unit construction method. The balcony is composed of a frame body that is substantially rectangular, consisting of a frame body that is partially cut out and a short piece that is detachably attached to the notched portion of the frame body, and a balcony floor.
After manufacturing the frame body, short piece and balcony floor at the factory and installing the balcony pillar at the construction site, put this balcony pillar into the inside of the frame body from the notched part, attach the frame body on the roof, short piece The method for constructing a building unit with a balcony according to claim 7, wherein a balcony floor is attached to the frame after the frame is attached to the notched portion of the frame body.

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