JP5467935B2 - Mixed structure unit type building and construction method of mixed structure unit type building - Google Patents

Description

  The present invention relates to a mixed structure unit type building having a plurality of building units having a rectangular parallelepiped frame and a reinforced concrete slab, and a construction method of the mixed structure unit type building.

As an example of a construction method of a unit type building in which building units composed of upper and lower floors and arranged to face each other with a gap are connected with a floor panel, a technique described in Patent Document 1 is known.
In this technique, a joint beam is fixed to an upper end portion of a first-floor building unit arranged to face each other, and then a steel floor panel is installed between the upper end portions of the first-floor building unit. The steel floor panel is formed by fixing a plurality of steel channel members having webs and flanges to the floor material, and the four corners of the steel channel member are fixed by the joint beam and bolts, screws, nails or the like. .

JP 2004-250915 A

  By the way, in the construction method of the conventional unit type building as described above, a steel floor panel is arranged between building units after fixing the joint beam to the building units arranged so as to face each other. Since it is necessary to fix the four corners of the steel channel mold of the panel with the joint beam and bolts, screws, nails, etc., it takes time for construction and requires a member with high dimensional accuracy such as a joint beam and a steel floor panel. However, there is a problem that costs are high.

  The present invention has been made in view of the above circumstances, and provides a method for constructing a mixed structure unit type building and a mixed structure unit type building that are easy to construct and do not require members with high dimensional accuracy such as joint beams and steel floor panels. The issue is to provide.

In order to solve the above problems, the invention according to claim 1 is a mixed structure having a plurality of building units 1 having a rectangular parallelepiped frame and reinforced concrete slabs 11 and 12, as shown in FIGS. A unit building,
The building units 1 and 1 are arranged opposite to each other at a predetermined interval in the lateral direction,
Reinforced concrete slabs 11 and 12 are provided between the building units 1 and 1 and in the upper end portion of the building unit 1 or in the vicinity of the upper end portion thereof.

According to the first aspect of the present invention, the reinforced concrete slabs 11 and 12 are provided between the building units 1 and 1 that are opposed to each other at a predetermined interval in the lateral direction and in the upper end portion of the building unit 1 or in the vicinity of the upper end portion. Therefore, construction is easy, and members with high dimensional accuracy such as joint beams and steel floor panels are not required, and costs can be reduced accordingly.
Moreover, construction at the site becomes easy by attaching to the building unit 1 parts that require time and effort for mounting around the water or stairs at a factory or the like.
Furthermore, the construction period can be shortened as compared with the case where the entire building is made of reinforced concrete.

The invention according to claim 2 is the mixed structure unit building according to claim 1,
The reinforced concrete slab 12 provided between the building units 1 and 1 located on the uppermost floor (for example, the second floor) and in the vicinity of the upper end or near the upper end of the building unit 1 is the building unit 1 and 1 located on the uppermost floor. It is characterized by covering the upper surface of the.

  According to invention of Claim 2, the reinforced concrete slab 12 provided between the building units 1 and 1 located in the top floor and in the upper end part of the said building unit 1 or the upper end vicinity is located in the top floor. Since the upper surfaces of the building units 1 and 1 are covered, the reinforced concrete slab 12 can be used as a roof of a mixed unit type building, and both ends of the reinforced concrete slab 12 are arranged to face each other at a predetermined interval in the lateral direction. Therefore, the reinforced concrete slab 12 can be reliably supported.

The invention according to claim 3 is the mixed structure unit building according to claim 1 or 2, wherein, for example, as shown in FIG. 10 and FIG. A rectangular frame raising unit 30 equal to the unit 1 is provided,
The reinforced concrete slabs 11, 12 are provided between the building units 1, 1 and in the upper end portion of the raising unit 30 or in the vicinity of the upper end portion thereof.

  According to the third aspect of the present invention, since the reinforced concrete slabs 11 and 12 are provided in the upper end portion or the vicinity of the upper end portion of the raising unit 30 provided on the upper surface of the building unit 1, the ceiling height is increased accordingly. Can be high.

The invention described in claim 4 is a mixed structure unit type building for constructing a mixed structure unit type building having a plurality of building units 1 having a rectangular parallelepiped framework and reinforced concrete slabs 11 and 12, as shown in FIG. The construction method of
The building units 1 and 1 are arranged facing each other at a predetermined interval in the lateral direction,
Next, reinforced concrete slabs 11 and 12 are provided between the building units 1 and 1 and in the upper end portion of the building unit 1 or in the vicinity of the upper end portion thereof.

According to the fourth aspect of the present invention, the reinforced concrete slabs 11 and 12 are provided between the building units 1 and 1 opposed to each other at a predetermined interval in the lateral direction and in the upper end portion or in the vicinity of the upper end portion of the building unit 1. Therefore, construction is easy, and a member with high dimensional accuracy such as a joint beam or a steel floor panel is not required, and the cost can be reduced accordingly.
In addition, installation on the site is facilitated by attaching, to a building unit, parts that require time and effort to attach water or staircases in factories or the like.
Furthermore, the construction period can be shortened as compared with the case where the entire building is made of reinforced concrete.

Invention of Claim 5 is the construction method of the mixed structure unit type building of Claim 4,
When providing the reinforced concrete slabs 11 and 12 between the building units 1 and 1 and in the upper end portion of the building unit 1 or in the vicinity of the upper end portion thereof,
A temporary beam 15 is installed between the upper ends of the building units 1 and 1 and the floor frames 16 and 20 are supported by the temporary beam 15.
The reinforced concrete slabs 11 and 12 are constructed on the floor molds 16 and 20.

  According to the fifth aspect of the present invention, the temporary beams 15 are installed between the upper end portions of the building units, and the floor frames 16 and 20 are supported by the temporary beams 15. Since the reinforced concrete slabs 11 and 12 are constructed on the upper side, the reinforced concrete slabs 11 and 12 can be constructed easily and reliably on site.

  The invention according to claim 6 is characterized in that, in the construction method of the mixed structure unit type building according to claim 5, the temporary beam 15 is removed after the strength of the reinforced concrete slabs 11 and 12 is developed.

  According to the invention described in claim 6, since the temporary beam 15 is removed after the strength of the reinforced concrete slabs 11 and 12 is developed, the temporary beam can be reused.

  According to the present invention, the reinforced concrete slab is provided between the building units opposed to each other at a predetermined interval in the horizontal direction and in the vicinity of the upper end portion or the upper end portion of the building unit. Therefore, a member with high dimensional accuracy such as a steel floor panel or the like is not required, and the cost can be reduced accordingly.

It is a front view which shows an example of the mixed structure unit type building which concerns on this invention, and shows the frame structure. In the same figure, (a) is a plan view of the first floor, and (b) is a plan view of the second floor. It is a perspective view which shows the framework of a building unit. It is sectional drawing of the floor part of the 2nd floor. It is sectional drawing of the roof part of the 2nd floor. It is process drawing which shows an example of the construction method of the mixed structure unit type building which concerns on this invention. An example of the mixed structure unit type building concerning the present invention is a sectional view showing a modification of a foundation. It is a front view which shows the modification of the frame structure of a building unit. It is a front view of the frame structure which shows the state which provided the building knit continuously. It is a front view which shows the other example of the mixed structure unit type building which concerns on this invention, and shows the frame structure. It is a perspective view for demonstrating the method to connect the raising unit to an upper and lower building unit.

Embodiments of the present invention will be described below with reference to the drawings.
(First embodiment)
The mixed structure unit type building of this embodiment is a two-story building having eight building units 1 having a rectangular parallelepiped frame and reinforced concrete slabs 11 and 12, as shown in FIGS. .
As shown in FIG. 3, the building unit 1 includes four columns 2, four ceiling beams 3 that connect the upper ends of these columns 2, and four that connect the lower ends of the columns 2. And floor beams 4.
The four ceiling beams 3 are constituted by two long side ceiling beams 3a and two short side ceiling beams 3b shorter than the long side ceiling beams 3a. The four floor beams 4 are composed of two long side floor beams 4a and two short side floor beams 4b shorter than the long side floor beams 4a. The column 2 is formed in a square cylinder shape, and the ceiling beam 3 and the floor beam 4 are each formed in a U-shaped cross section.

A plurality of ceiling beams 5 are installed on the two long side ceiling beams 3a, 3a, and the ceiling beam 5 is provided at a predetermined interval in the longitudinal direction of the long side ceiling beams 3a. A ceiling plate 6 is fixed to the lower surface of the ceiling beams 5.
A plurality of joists 7 are installed on the two long side floor beams 4a, 4a, and the joists 7 are provided at predetermined intervals in the longitudinal direction of the long side floor beams 4a. A floor plate 8 is fixed to the upper surface of the joists 7.
Note that the upper end of the column 2 and the end of the ceiling beam 3 are joined by a stigma joining member 9, and the lower end of the column 2 and the end of the floor beam 4 are joined by a column base joining member 10.

Four building units 1 are arranged on the first floor and four on the second floor. On the first floor, a pair of two building units 1, 1 arranged in the longitudinal direction of the long-side ceiling beam 3a is arranged in a pair separated from the left and right. As a result, the left and right (horizontal) building units 1 and 1 are opposed to each other at a predetermined interval.
On the second floor, like the first floor, two building units 1 and 1 are arranged in a row in the longitudinal direction of the long side ceiling beam 3a so as to be spaced apart from each other on the left and right. As a result, the left and right (horizontal) building units 1 and 1 are opposed to each other at a predetermined interval.
In addition, the four building units 1 on the first floor and the four building units 1 on the second floor are arranged at the same position in a plan view, thereby four building units on the first floor. Four building units 1 on the second floor are installed on 1 and connected.

As shown in FIG. 1, a solid foundation 13 is provided on the ground on which the building is to be installed, and installation surfaces 13b and 13b that are one step lower than the upper surface 13a of the solid foundation 13 are provided at the left and right ends of the solid foundation 13. Is formed. The building unit 1 on the first floor is installed on the installation surface 13b. In addition, the level | step difference between the upper surface 13a of the solid foundation 13 and the installation surface 13b is substantially equal to the beam formation of the floor beam 4 of the building unit 1. The width of the installation surface 13b (left and right length in FIG. 1) is equal to the width of the building unit 1, and the length of the installation surface 13b (length in the direction orthogonal to the paper surface in FIG. 1) is the length of the building unit 1. It is equal to twice this.
An anchor bolt (not shown) is embedded in the solid foundation 13 with its upper end protruding from the installation surface 13b, and the upper end of the anchor bolt is connected to the column base joining member 10 of the building unit 1. . Thereby, the building unit 1 on the first floor is firmly installed and fixed to the solid foundation 13.

The reinforced concrete slab 11 is provided between the building units 1 and 1 which are installed on the solid foundation 13 and are opposed to each other at a predetermined interval on the left and right sides and at the upper end of the building unit 1 as follows.
That is, as shown in FIG. 4, between the long side ceiling beams 3a and 3a of the building units 1 and 1 on the first floor that are spaced apart from each other (only one ceiling beam 3a is shown in FIG. 4). A plurality of temporary beams 15 are arranged at predetermined intervals in the longitudinal direction of the long-side ceiling beam 3a, and ends of the temporary beams 15 are detachably attached to the long-side ceiling beam 3a by bolts 14a and nuts 14b. It has been. The upper surface of the temporary beam 15 is flush with the upper surface of the long side ceiling beam 3a. In addition, the temporary beam 15 is arrange | positioned also between the stigma joining members 9 and 9 of the building units 1 and 1 which mutually oppose, and is similarly attached so that attachment or detachment is possible.
A floor mold 16 formed of plywood or the like is installed on the temporary beam 15, and the floor mold 16 is supported from below by the temporary beam 15. The upper surface of the floor mold 16 is flush with the lower surface of the long-side floor beam 4a on the second floor, and at the end of the long-side ceiling beam 3a in the longitudinal direction (the direction orthogonal to the paper surface in FIG. 4), A damming plate (not shown) is provided.

A support portion 17 is formed along the longitudinal direction of the long-side floor beam 4a on the outer surface of the long-side floor beam 4a of the building unit 1 on the second floor.
A plurality of slab bars 18 are arranged above and below the floor form frame 16 so as to cross each other in a plan view, and the ends of the slab bars 18 that are long on the left and right are supported by the support part 17. The slab bars 18 that intersect in the vertical and horizontal directions are bound together by a wire or the like, and the ends of the slab bars 18 supported by the support part 17 are fixed to the support part 17 by welding or the like.
Concrete 19 is placed on the site surrounded by the long-side floor beams 4a and 4a of the building units 1 and 1 facing each other on the second floor and the floor mold 16 having a damming plate. Yes. In this way, the reinforced concrete slab 11 is provided between the building units 1 and 1 on the first floor that are opposed to each other at a predetermined interval on the left and right, and at the upper end of the building unit.
The temporary beam 15 may be left as it is, or after the strength of the reinforced concrete slab 11 is developed, the bolt 14a may be loosened and removed.

The reinforced concrete slab 12 is provided between the building units 1 and 2 on the second floor opposed to each other at a predetermined interval on the left and right sides and at the upper end of the building unit as follows.
That is, as shown in FIG. 5, between the long-side ceiling beams 3a and 3a of the building units 1 and 1 on the second floor that are separated from each other (only one ceiling beam 3a is shown in FIG. 5). A plurality of temporary beams 15 are arranged at predetermined intervals in the longitudinal direction of the long-side ceiling beam 3a, and ends of the temporary beams 15 are detachably attached to the long-side ceiling beam 3a by bolts 14a and nuts 14b. It has been. The upper surface of the temporary beam 15 is flush with the upper surface of the long side ceiling beam 3a. In addition, the temporary beam 15 is arrange | positioned also between the stigma joining members 9 and 9 of the building units 1 and 1 which mutually oppose, and is attached so that attachment or detachment is possible similarly.

  A floor mold 20 formed of plywood or the like is installed on the temporary beam 15, and the floor mold 20 is supported from below by the temporary beam 15. The floor mold 20 is extended on the upper surface of the building unit 1 on the second floor, and its end is located on the long side ceiling beam 3 a outside the building unit 1. Further, a damming plate (not shown) is provided at an end portion in the longitudinal direction (a direction orthogonal to the paper surface in FIG. 5) of the long side ceiling beam 3a of the floor form frame 20, and the short side ceiling beam 3b of the floor form frame 20 is provided. A damming plate 20a is provided at the end in the longitudinal direction (left and right direction in FIG. 5).

Above the floor mold 20, a plurality of slab bars 18 are arranged vertically and horizontally in plan view, and are held at a predetermined height from the upper surface of the floor mold 20 by a support member (not shown). A waterproof sheet 21 is laid on the upper surface of the floor mold 20. Note that the slab muscles 18 that intersect vertically and horizontally are bound together by a number line or the like.
And concrete 22 is laid in the field on floor formwork 20 which has dam 20a. In this way, the reinforced concrete slab 12 is provided between the building units 1 and 2 on the second floor, which are opposed to each other at a predetermined interval on the left and right sides, and at the upper end of the building unit 1. The upper surface of the building unit 1 is covered.
The temporary beam 15 may be left as it is, or after the strength of the reinforced concrete slab 12 is developed, the bolt 14a may be loosened and removed.

Next, the construction method of the mixed structure unit type building comprised as mentioned above is demonstrated with reference to FIG.
First, as shown in FIG. 6 (a), after a solid foundation 13 is constructed at a place where a building is to be installed, the building units 1 and 1 on the first floor are laterally arranged at predetermined intervals on the installation surfaces 13b and 13b. Place and fix them facing each other.

  Next, as shown in FIG. 6 (b), temporary beams 15 are placed between the long-side ceiling beams 3a and 3a of the first floor building units 1 and 1 that are spaced apart from each other and between the stigma joining members 9 and 9 that face each other. After the arrangement, the end of the temporary beam 15 is detachably attached to the long side ceiling beams 3a, 3a and the stigma joining members 9, 9.

Next, as shown in FIG.6 (c), the 2nd-floor building unit 1 is installed on the 1st-floor building unit 1, and these are connected with a connecting bolt etc. As shown in FIG.
Next, after disposing the temporary beam 15 between the long side ceiling beams 3a, 3a of the building units 1, 1 on the second floor which are spaced apart from each other and between the stigma joining members 9, 9 facing each other, Ends are detachably attached to the long side ceiling beams 3a, 3a and the stigma joining members 9, 9.

Next, as shown in FIG. 6D, a reinforced concrete slab 11 is provided between the upper ends of the first floor building units 1 and 1 as follows.
That is, as shown in FIG. 4, the temporary beam 15 is placed between the long side ceiling beams 3a and 3a of the building units 1 and 1 on the first floor that are spaced apart from each other and between the stigma joining members 9 and 9. After arranging a plurality of temporary beams 15 at predetermined intervals in the longitudinal direction, the end portions of the temporary beams 15 are detachably attached to the long side ceiling beams 3a and the stigma joining members 9, 9 by bolts 14a and nuts 14b.

Next, the floor formwork 16 is installed on the temporary beam 15, and a plurality of slab bars 18 are arranged above and below the floor formwork 16 so as to intersect vertically and horizontally in plan view. Is supported by the support portion 17 and then fixed to the support portion 17 by welding or the like.
Next, concrete 19 is cast in the field on the part surrounded by the long side floor beams 4a and 4a of the building units 1 and 1 facing each other on the second floor and the floor formwork 16 having a blocking plate. Thus, the reinforced concrete slab 11 is constructed between the building units 1 and 1 and at the upper end of the building unit 1.
After the strength of the reinforced concrete slab 11 is developed, the temporary beam 15 is removed by loosening the bolts 14a.

Next, as shown in FIG. 6E, a reinforced concrete slab 12 is provided between the building units 1 and 1 on the second floor and at the upper end of the building unit 1 as follows.
That is, as shown in FIG. 5, the temporary beam 15 is connected to the long side ceiling beam 3a between the long side ceiling beams 3a, 3a of the building units 1, 1 on the second floor and facing each other and between the stigma joining members 9, 9. After arranging a plurality of temporary beams 15 at predetermined intervals in the longitudinal direction, the end portions of the temporary beams 15 are detachably attached to the long side ceiling beams 3a and the stigma joining members 9, 9 by bolts 14a and nuts 14b.

Next, the floor mold 20 is installed on the temporary beam 15 and the end of the floor mold 20 is installed on the upper surface of the building unit 1. Next, after the waterproof sheet 21 is laid on the upper surface of the floor mold 20, a plurality of slab bars 18 are arranged above the floor mold 20 so as to intersect vertically and horizontally in plan view.
Next, by placing concrete 22 on the floor formwork 16 on site, the reinforced concrete slab 12 is placed between the building units 1 and 1 on the second floor and the upper end of the building unit 1 on the second floor. 1. Install so that the top surface of 1 is covered.

After the strength of the reinforced concrete slab 12 is developed, the temporary beam 15 is removed by loosening the bolts 14a.
Moreover, you may perform construction of such a reinforced concrete slab 12 before construction of the said reinforced concrete slab 12.

In this way, after constructing the framework of the mixed structure unit type building, as shown in FIG. 2, the building unit 1 is attached with the outer wall material to the building unit 1 and is opposed to the building unit 1, 1 at a predetermined interval in the lateral direction. In the middle, an outer wall 25 having a window and a front door is arranged, and the side ends of the outer wall 25 are fixed to the building units 1 and 1, and the upper and lower ends are fixed to the reinforced concrete slabs 11 and 12 and the solid foundation 13 respectively. Further, the water circumference 26 and the stairs 27 are attached, and the construction of the mixed structure unit type building is completed.
In addition, you may attach the outer wall material attached to the building unit 1 to the required location of the building unit 1 previously.
In addition, parts that require time and labor for attaching the water circumference 26, the staircase 27, etc. may be attached to the building unit 1 in advance at the factory.

According to the present embodiment, the reinforced concrete slabs 11 and 12 are provided at the upper end portion of the building unit 1 that extends between the building units 1 and 1 that are opposed to each other at a predetermined interval in the lateral direction. It is easy and does not require a member with high dimensional accuracy such as a conventional joint beam or steel floor panel, and the cost can be reduced accordingly.
In addition, installation on the building unit is facilitated by attaching parts that require time and effort to attach the water circumference 26, the staircase 27, and the like to the building unit.
Furthermore, the construction period can be shortened as compared with the case where the entire building is made of reinforced concrete.

Moreover, since the reinforced concrete slab 12 provided between the upper ends of the building units 1 and 1 on the second floor covers the upper surface of the building units 1 and 1 on the second floor, the reinforced concrete slab 12 is mixed with the mixed structure unit. Since both ends of the reinforced concrete slab 12 can be supported by the upper surfaces of the building units 1 and 1 that are opposed to each other at a predetermined interval in the lateral direction, the reinforced concrete slab 12 is reliably supported. be able to.
Further, a temporary beam 15 is installed between the upper ends of the building units 1 and 1, and the floor molds 16 and 20 are supported by the temporary beam 15, and the reinforced concrete slabs 11 and 20 are placed on the floor molds 16 and 20. Since 12 is constructed, the reinforced concrete slabs 11 and 12 can be constructed easily and reliably on site.
Further, since the temporary beam 15 is removed after the strength of the reinforced concrete slabs 11 and 12 is developed, the temporary beam 15 can be reused at other sites.

In the present embodiment, the building units 1 and 1 are installed on the solid foundation 13, but instead, as shown in FIG. 7, cloth foundations 13c and 13c are provided separately on the left and right, and this cloth foundation is provided. While installing the building units 1 and 1 in 13c and 13c, you may lay the soil concrete 13d between the cloth foundations 13c and 13c.
In the present embodiment, the upper surface 13a of the solid foundation 13 is substantially flush with the upper surface of the floor beam 4. However, the present invention is not limited to this, and the upper surface of the solid foundation 13 is greatly depressed as shown in FIG. The recess 13e may be formed. In this way, the recess 13e can be used for underfloor storage or the like.

Furthermore, in the present embodiment, a flat reinforced concrete slab 12 is provided between the building units 1 and 1 on the second floor and at the upper end of the building unit, but not limited thereto, as shown in FIG. A gable roof-shaped reinforced concrete slab 12 may be provided between the building units 1 and 1 and at the upper end of the building unit.
Further, in the present embodiment, the case where one mixed structure unit type building is constructed has been described as an example. However, as shown in FIG. Good.
In this case, on the temporary beam 15 provided between the building units 1 and 1 on the second floor, it continues from the end of the mixed structure unit type building T located on one end side to the end of the mixed structure unit type building T located on the other end side. After installing a waterproof sheet on the upper surface of the floor formwork, a plurality of slab muscles are arranged vertically and horizontally in plan view above the floor formwork, and on the floor formwork, It is desirable to construct a continuous reinforced concrete slab 12 by placing concrete on site.
The solid foundation 13 is also preferably provided continuously from the end of the mixed structure unit building T located on one end side to the end of the mixed structure unit building T located on the other end side.

(Second Embodiment)
10 and 11 show a second embodiment of the present invention.
The mixed structure unit type building shown in these figures differs from the mixed structure unit type building of the first embodiment in that a raising unit 30 is provided on the upper surface of the building unit 1 and between the building units 1 and 1. In addition, since the reinforced concrete slabs 11 and 12 are provided at the upper end of the raising unit 30, this point will be described in detail below, and the same components as those in the first embodiment are denoted by the same reference numerals. The description will be simplified or omitted.

As shown in FIG. 10, the raising unit 30 is provided on the upper surface of the building unit 1 on the first floor, and the building unit 1 on the second floor is provided on the upper surface of the raising unit.
The raising unit 30 has a rectangular frame shape that is the same as the building unit 1 in plan view, and includes four raising members 31 and four connecting beams 32 that connect the raising members 31 to each other. I have.
The bulky member 31 is formed in a bottomed rectangular tube shape, and its cross-sectional shape is equal to the cross-sectional shape of the column 2 of the building unit 1. Further, the height of the bulking member 31 is higher than that of the ceiling beams 3 and floor beams 4 of the building unit 1. Furthermore, as shown in FIG. 11, four through-holes 31a ... are formed in the bottom part of the bulking member 31. As shown in FIG.
The connecting beam 32 is formed in a U-shaped cross section, and the cross-sectional shape is equal to the cross-sectional shape of the ceiling beam 3 and the floor beam 4 of the building unit 1.

Four through-holes 9a are formed coaxially with the four through-holes 31a on the upper surface portion of the stigma joining member 9 of the building unit 1 on the first floor. Moreover, four through-holes 10a ... are formed coaxially with the four through-holes 31a ... in the lower surface part of the column base joining member 10 of the building unit 1 on the second floor.
On the upper surface of the stigma joining member 9 of the building unit 1 on the first floor, the raising member 31 of the raising unit 30 is installed, and on the upper surface of the raising member 31, the column base joining member 10 of the building unit 1 on the second floor is installed. The lower surface is installed. A long connecting bolt 33a is inserted through the through holes 10a, 31a, and 9a arranged coaxially from above, and a nut 33b is screwed and tightened to the lower end of the connecting bolt 33a. As a result, the bulkiness member 31 is sandwiched between the column base joint member 10 and the column head joint member 9 of the upper and lower building units 1, 1 and is firmly fixed therebetween.

As shown in FIG. 10, the raising unit 30 is similarly provided on the upper surface of the building unit 1 on the second floor, but a lid member (not shown) is provided at the upper surface opening of the raising member 31 of the raising unit 30. Is inserted.
A connecting bolt (not shown) that is shorter than the connecting bolt 33a is inserted through the through holes 31a and 9a arranged coaxially, and a nut is screwed and tightened to the lower end of the connecting bolt. Thereby, the bulky member 31 is firmly fixed to the stigma joining member 9 of the building unit 1 on the second floor. When inserting the connecting bolt into the through holes 31a and 9a, after removing the lid member, inserting the coupling bolt from above the bulky member 31, screwing and tightening the nut, and then tightening the lid member 31 is fitted into the upper end opening.

In the first embodiment, the temporary beam 15 provided at the upper part of the first floor is provided between the long-side ceiling beams 3a and 3a of the building units 1 and 1 on the first floor that are spaced apart from each other. In this embodiment, a plurality of temporary beams 15 are arranged at predetermined intervals in the longitudinal direction of the connecting beams 32 between the connecting beams 32 and 32 of the raising units 30 and 30 that are spaced apart from each other. Is detachably attached to the connecting beam 32 by bolts and nuts. The upper surface of the temporary beam 15 is flush with the upper surface of the raising member 31 of the raising unit 30. In addition, the temporary beam 15 is also arrange | positioned between the bulky members 31 and 31 which oppose mutually, and is similarly attached so that attachment or detachment is possible.
On the temporary beam 15, a floor frame (not shown) having the same shape as the floor frame 16 is installed. The floor frame is supported by the temporary beam 15 from below.

Above the floor formwork, a plurality of slab bars (not shown) are arranged so as to intersect vertically and horizontally in plan view, and the ends of the long slab bars on the left and right are the long side floor beams 4a of the building unit 1 on the second floor. It is supported by a support portion (not shown) formed on the side surface of the. In addition, the edge part of the slab muscle currently supported by the support part is being fixed to the said support part by welding.
And concrete is cast in the field in the part enclosed by the long-side floor beams 4a and 4a of the building units 1 and 1 facing each other on the second floor and the floor formwork having the damming plate. In this manner, the reinforced concrete slab 11 is provided between the building units 1 and 1 and at the upper end of the raising unit 30.
The temporary beam 15 may be left as it is, or after the strength of the reinforced concrete slab 11 is developed, the bolt may be loosened and removed.

  Further, in the first embodiment, the temporary beam 15 provided at the upper part of the second floor is provided between the long side ceiling beams 3a, 3a of the building units 1, 1 on the second floor that are spaced apart from each other. In the present embodiment, a plurality of temporary beams 15 are arranged at predetermined intervals in the longitudinal direction of the connection beams 32 between the connection beams 32 and 32 of the raising units 30 and 30 that are spaced apart from each other. The end is detachably attached to the connecting beam 32 by bolts and nuts. The upper surface of the temporary beam 15 is flush with the upper surface of the raising member 31 of the raising unit 30. In addition, the temporary beam 15 is also arrange | positioned between the bulky members 31 and 31 which oppose mutually, and is similarly attached so that attachment or detachment is possible.

On the temporary beam 15, a floor mold frame (not shown) having the same shape as the floor mold frame 20 is installed, and this floor mold frame is supported from below by the temporary beam 15. The floor mold extends to the upper surface of the raising unit 30 on the second floor, and its end is located on the connecting beam 32 outside the raising unit 30.
Above the floor formwork, a plurality of slab bars (not shown) are arranged vertically and horizontally in plan view, and a waterproof sheet is laid on the top surface of the floor formwork.
In the floor formwork, concrete is placed on site. In this way, the reinforced concrete slab 12 is provided between the building units 1 and 1 on the second floor, which are opposed to each other at a predetermined interval on the left and right sides, and at the upper end of the raising unit 30. The upper surface of the raising unit 30 is covered.
The temporary beam 15 may be left as it is, or after the strength of the reinforced concrete slab 12 is developed, the bolt may be loosened and removed.

  The mixed structure unit type building constructed as described above is provided with the raising unit 30 on the upper surface of the building unit 1 on the first and second floors, and the temporary beam 15 is provided between the raising units 30 and 30 facing each other. The construction method is different from that of the mixed structure unit building of the first embodiment, and the other construction methods are the same.

According to the present embodiment, since the reinforced concrete slabs 11 and 12 are provided in the upper end portion of the raising unit 30 provided on the upper surface of the building unit 1 or in the vicinity of the upper end portion, the first floor and the second floor are correspondingly provided. The ceiling height can be increased.
In addition, if the building unit 1 is raised in order to increase the ceiling height of the building, it may not be able to be transported by a truck or the like due to the height restriction. In this embodiment, the building unit 1 and the raising unit 30 are transported. By assembling these on-site, a building with a high ceiling can be easily constructed.

In the present embodiment, the connecting beam 32 of the raising unit 30 and the ceiling beam 3 of the building unit 1 are arranged close to each other at both the upper end of the first floor and the upper end of the second floor. Since the building unit 1 and the raising unit 30 are firmly connected and integrated, the ceiling beam 3 of the building unit 1 may be omitted.
In this case, what is necessary is just to install and fix the four raising members 31 of the raising unit 30 to the upper end part of the four pillars 2 of the building unit 1.
When the ceiling beam 3 of the building unit 1 is omitted, the building unit 1 may become unstable when transported by a truck or installed by a crane or the like on the site. It is desirable that a jig beam equivalent to the ceiling beam 3 is detachably attached to the section, and the jig beam is removed after the building unit 1 is installed.

  In the two embodiments, the reinforced concrete slabs 11 and 12 are made on-site, but instead of this, a precast reinforced concrete slab may be used. In this case, it is desirable to provide a supported portion supported by the support portion 17 at the left and right end portions of the precast reinforced concrete slab provided on the first floor. Moreover, in the case of a precast reinforced concrete slab, there exists an advantage that it can construct without using the temporary beam 15. FIG.

1 Building unit 11, 12 Reinforced concrete slab 15 Temporary beam 16, 20 Floor formwork 30 Raising unit

Claims (6)

A mixed structure unit type building having a plurality of building units having a rectangular parallelepiped frame and a reinforced concrete slab,
The building units are arranged opposite to each other at a predetermined interval in the lateral direction,
A mixed structure unit type building characterized in that a reinforced concrete slab is provided between these building units and in the vicinity of the upper end or the upper end of the building unit. In the mixed structure unit type building according to claim 1,
A reinforced concrete slab provided between the building units located on the top floor and in the vicinity of the upper end or near the upper end of the building unit covers the upper surface of the building unit located on the top floor. Unit building. In the mixed structure unit type building according to claim 1 or 2,
On the upper surface of the building unit, a rectangular frame raising unit having a shape in plan view equal to the building unit is provided,
The mixed structure unit type building, wherein the reinforced concrete slab is provided between the building units and in the vicinity of the upper end portion or the upper end portion of the raising unit. A construction method of a mixed structure unit type building for constructing a mixed structure unit type building having a plurality of building units having a rectangular parallelepiped frame and a reinforced concrete slab,
The building units are arranged opposite to each other at a predetermined interval in the lateral direction,
Next, the construction method of the mixed structure unit type | mold building characterized by providing a reinforced concrete slab between these building units and in the upper end part of the said building unit, or upper end part vicinity. In the construction method of the mixed structure unit type building of Claim 4,
In providing the reinforced concrete slab between the building units and in the vicinity of the upper end or the upper end of the building unit,
A temporary beam is installed between the upper end portions of the building units, and a floor frame is supported by the temporary beam.
A construction method of a mixed structure unit type building characterized by constructing a reinforced concrete slab on this floor formwork. In the construction method of the mixed structure unit type building of Claim 5,
The construction method of a mixed structure unit type building, wherein the temporary beam is removed after the strength of the reinforced concrete slab is developed.

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