JP5756000B2 - Spiral staircase mounting structure - Google Patents

Description

The present invention relates to a mounting structure of the spiral staircase formed by spiral staircase is attached to a building unit which constitutes a unit building.

2. Description of the Related Art Conventionally, there has been known a unit building that is constructed by installing building units formed by joining columns, floor beams, and ceiling beams in a box shape so as to be adjacent to each other on the left and right and up and down at a construction site.
In recent years, there has been a desire to install a spiral staircase in a unit building. Therefore, a technique has been developed in which a large opening is formed in the ceiling of the lower-floor building unit and the floor of the upper-floor building unit to form a hollow in the building body, and a spiral staircase is installed at the position of this hollow. (For example, refer to Patent Document 1).

JP 2004-169383 A

By the way, in the unit building of patent document 1, the spiral staircase can be previously incorporated in one building unit. However, if the spiral staircase is previously incorporated in the building unit, the support column protrudes upward from the upper end of the building unit. For this reason, there are concerns that height restrictions must be taken into consideration during transportation, and problems such as contact between the suspension wire and the spiral staircase may arise when the building unit is lifted.
Therefore, there is a request to adopt a method of construction on site without incorporating the spiral staircase in advance into the building unit, but if the spiral staircase is incorporated at the site, the joining work previously performed at the factory etc. cannot be performed There is. If the joining work cannot be performed in advance in a factory or the like, the work of joining the spiral staircase to the building unit may be complicated, or the spiral staircase may not be firmly joined to the building unit.

An object of the present invention, even when the construction site a spiral staircase, and an object thereof is to provide a mounting structure of capable spiral staircase to mount the spiral staircase easily and firmly to the building unit.

As shown in FIGS. 1 to 6, for example, the spiral staircase 20 is provided in the lower-floor building unit 10 (10 a) and the upper-floor building unit 10 (10 b) that are adjacently arranged in the vertical direction. In the mounting structure of the spiral staircase 20 attached,
The spiral staircase 20 includes a column 21, a plurality of step plates 23 attached spirally along the column 21, an uppermost step plate 23, and a floor portion of the upper building unit 10 (10 b). And a landing 24 provided between them,
The lower floor building unit 10 (10a) includes a first reinforcing portion 5 provided at a portion to which a lower end portion (for example, the base plate 22) of the column 21 of the spiral staircase 20 is fixed,
The upper floor building unit 10 (10b) includes a second reinforcing portion 6 provided at a portion where the landing 24 of the spiral staircase 20 is fixed,
The first reinforcing part 5 and the second reinforcing part 6 are made of metal horizontal members (for example, floor joists 16 and reinforcing members) that constitute the lower building unit 10 (10a) and the upper building unit 10 (10b), respectively. 51, floor beam 13 and reinforcement 61);
The struts 21 and the landing 24 of the spiral staircase 20 is fixed to the horizontal member has possess a wooden base material 50, 60 which are respectively fixed,
The horizontal member constituting the first reinforcing portion 5 constitutes a floor portion of the lower-floor building unit 10a and has a floor joist 16 having a substantially U-shaped cross section and a size larger than the floor joist 16. A reinforcing material 51 formed in a substantially U-shaped cross section, and the floor joists 16 and the reinforcing material 51 are joined to each other so that the openings face each other,
The base material 50 constituting the first reinforcing portion 5 is fixed to the side surface of the floor joist 16 and the side surface of the reinforcing material 51, respectively.
A lower end portion of the column 21 of the spiral staircase 20 is disposed above the horizontal member and the base material 50 and is fixed to the base material 50 .

According to the first aspect of the present invention, the first reinforcing portion 5 provided at the portion to which the lower end portion of the column 21 of the spiral staircase 20 is fixed has the wooden base material 50. The lower end portion of the support column 21 can be easily and reliably fixed to the wooden base material 50 by the fastening material such as the above. Furthermore, since the base material 50 is fixed to the metal horizontal member, the support column 21 whose lower end is fixed to the base material 50 can be reliably supported by the horizontal member. .
In addition, since the second reinforcing portion 6 provided in the portion where the landing 24 of the spiral staircase 20 is fixed has the wooden base material 60, the landing 24 is fixed by a fastening material such as a bolt 27a, for example. It can be easily and reliably fixed to the wooden base material 60. Furthermore, since the base material 60 is fixed to the metal horizontal member, the landing 24 fixed to the base material 60 can be reliably supported by the horizontal member.
Since the spiral staircase 20 can be easily and reliably fixed to the base materials 50 and 60 of the first reinforcing portion 5 and the second reinforcing portion 6 and can be reliably supported by the horizontal member, The attachment state of the spiral staircase 20 to the building unit 10 (10a, 10b) can be strengthened. As a result, the spiral staircase 20 can be added to the building unit 10 (10a, 10b) at the site even if the spiral staircase 20 is not previously joined to the building unit 10 (10a, 10b) in a factory or the like. It can be easily and firmly fixed.

Further, the floor joist 16 and the reinforcing member 51 are joined so that the openings face each other, whereby the horizontal member can be formed in a substantially rectangular tube shape in cross section. As a result, the opening of the floor joist 16 is closed, so that the floor joist 16 can be reinforced by the reinforcing material 51. Further, the base material 50 is fixed to the side surface of the floor joist 16 and the side surface of the reinforcing material 51, respectively, and the lower end portion of the support column 21 is disposed above the horizontal member and the base material 50. Therefore, the support column 21 can be more reliably supported by the reinforced horizontal member and the base material 50, and the lower end portion of the support column 21 is placed in the state where the support column 21 is supported by the horizontal member. The base material 50 can be fixed.
Accordingly, the lower end portion of the column 21 of the spiral staircase 20 can be lowered at the site even if the spiral staircase 20 is not previously joined to the building unit 10 (10a, 10b) in a factory or the like. It becomes possible to fix to the floor building unit 10a more easily and firmly.

The invention according to claim 2, for instance 1, 5, 6, in the mounting structure of the spiral staircase 20 according to claim 1,
The horizontal member constituting the second reinforcing portion 6 constitutes a floor portion of the upper-floor building unit 10b and has a floor beam 13 having a substantially U-shaped cross section and a size larger than that of the floor beam 13. A reinforcing member 61 that is formed in a substantially U-shaped section that is slightly smaller in cross section and located inside the upper floor building unit 10b than the floor beam 13 is provided, and the floor beam 13 and the reinforcing member 61 are open to each other. Is formed by joining so as to face each other,
The base material 60 constituting the second reinforcing portion 6 is fixed to the side surface of the reinforcing material 61,
The landing 24 of the spiral staircase 20 is disposed on the side of the base material 60 and is fixed to the base material 60.

According to the second aspect of the present invention, the floor member 13 and the reinforcing member 61 are joined so that the openings face each other, whereby the horizontal member is formed in a substantially rectangular tube shape in cross section. it can. As a result, the opening of the floor beam 13 is closed, so that the floor beam 13 can be reinforced by the reinforcing member 61. Furthermore, since the base material 60 is fixed to the side surface of the reinforcing material 61 and the landing 24 is arranged on the side of the base material 60, the landing material 24 is fixed to the base material 60. Thus, the reinforced horizontal member and the base material 60 can be more reliably supported.
Accordingly, the landing 24 of the spiral staircase 20 can be connected to the upper-floor building unit at the site even if the spiral staircase 20 is not previously joined to the building unit 10 (10a, 10b) in a factory or the like. It becomes possible to fix to 10b more easily and firmly.

The invention according to claim 3 is the mounting structure of the spiral staircase 20 according to claim 2 , for example, as shown in FIGS.
The floor beam 13 constituting the floor portion of the upper floor building unit 10b includes a long side floor beam 13a and a short side floor beam 13b orthogonal to the long side floor beam 13a.
The reinforcing member 61 is joined to both the long side floor beam 13a and the short side floor beam 13b.
The landing 24 is provided on each of the base material 60 fixed to the side surface of the reinforcing material 61 on the long side floor beam 13a side and the base material 60 fixed on the side surface of the reinforcing material 61 on the short side floor beam 13b side. It is fixed.

According to the invention described in claim 3 , the landing 24 includes the base material 60 fixed to the side surface of the reinforcing material 61 on the long side floor beam 13 a side and the reinforcing material 61 on the short side floor beam 13 b side. For example, the landing 24 is cantilevered by being fixed to the base material 60 on either the long-side floor beam 13a side or the short-side floor beam 13b side. It can be supported more securely than it is supported. Thereby, the attachment state to the building unit 10 (10a, 10b) of the spiral staircase 20 can be further strengthened.

According to the present invention, the first reinforcing portion provided at the portion to which the lower end portion of the spiral staircase column is fixed has a wooden base material, so that the lower end portion of the column is fixed by a fastening material such as a bolt, for example. Can be easily and reliably fixed to a wooden base material. Furthermore, since the base material is fixed to the metal horizontal member, the column having the lower end fixed to the base material can be reliably supported by the horizontal member.
In addition, since the second reinforcing portion provided at the portion where the landing of the spiral staircase is fixed has a wooden base material, the landing base can be easily and reliably attached to the wooden base material by a fastening material such as a bolt. Can be fixed. Furthermore, since the base material is fixed to the metal horizontal member, the landing place fixed to the base material can be reliably supported by the horizontal member.
And since the spiral staircase can be easily and reliably fixed to the base material of the first reinforcing portion and the second reinforcing portion as described above and can be reliably supported by the horizontal member, the mounting state of the spiral staircase to the building unit can be Can be strong. This makes it possible to perform on-site construction of the spiral staircase, and easily and firmly fix the spiral staircase to the building unit at the site, even if the spiral staircase is not joined to the building unit in advance at the factory or the like. Is possible.

It is sectional drawing which shows the attachment structure of the spiral staircase which concerns on this invention. It is a perspective view which shows an example of a building unit. (A) is a plane sectional view which shows the lower end part of a support | pillar, (b) is the elements on larger scale which show the 1st reinforcement part vicinity. It is a perspective view which shows a 1st reinforcement part. It is a top view which shows the spiral staircase and the 2nd reinforcement part vicinity. It is the elements on larger scale which show the 2nd reinforcement part vicinity.

Embodiments of the present invention will be described below with reference to the drawings.
A building 1 shown in FIG. 1 is a unit building, and a building body is constituted by a plurality of building units 10 (10a, 10b) and the like, and in this embodiment, it is a three-story building. A spiral staircase 20 that connects the lower floor 2 and the upper floor 3 of the building 1 is installed at an arbitrary location in the building 1. In the present embodiment, a spiral staircase 20 that connects the second floor of the building 1 that is the lower floor 2 and the third floor of the building 1 that is the upper floor 3 is below the roof 7 provided at the upper part of the building body. And it is installed inside the balcony 8 provided on the outside side of the lower floor 2.
At the position where the spiral staircase 20 is installed, a lower floor side opening 4a is formed in the upper part of the building unit 10 on the lower floor 2 side where the spiral staircase 20 is installed, and on the upper floor 3 side. By forming the upper floor side opening 4b in the lower part of the building unit 10, the atrium 4 that connects the upper and lower floor spaces is formed. The spiral staircase 20 is installed using the blow-off 4.

Here, among the building units 10, a unit to which the spiral staircase 20 is attached on the lower floor 2 of the building 1 is referred to as a lower floor building unit 10 a, and a unit to which the spiral staircase 20 is attached to the upper floor 3 of the building 1. This is called the upper floor building unit 10b.
Further, as shown in FIG. 2, the building unit 10 (10a, 10b) includes four columns 11, four ceiling beams 12 connecting the upper ends of the columns 11, and the columns 11. Are provided with four floor beams 13 for connecting the lower ends of.

The four ceiling beams 12 are composed of two long side ceiling beams 12a and 12a and two short side ceiling beams 12b and 12b shorter than the long side ceiling beams 12a.
The four floor beams 13 are composed of two long side floor beams 13a and 13a and two short side floor beams 13b and 13b shorter than the long side floor beam 13a.
The column 11 is formed in a square cylinder shape, and the ceiling beam 12 and the floor beam 13 are each formed in a U-shaped cross section.

  A plurality of ceiling beams 14 are installed on the two long-side ceiling beams 12a, 12a, and the ceiling beams 14 are provided at predetermined intervals in the longitudinal direction of the long-side ceiling beams 12a. A ceiling plate 15 is fixed to the lower surface of the ceiling beams 14.

A plurality of floor joists 16, 16a are installed on the two long side floor beams 13a, 13a, and the floor joists 16, 16a are provided at predetermined intervals in the longitudinal direction of the long side floor beams 13a. A floor plate 17 is fixed to the upper surfaces of the floor joists 16, 16a.
Of the plurality of floor joists 16, 16a, one floor joist 16 is made of metal having a substantially U-shaped cross section, and the other plural floor joists 16a are made of wooden squares.

Note that the upper end portion of the column 11 and the end portion of the ceiling beam 12 are joined by a column head joining member 18, and the lower end portion of the column 11 and the end portion of the floor beam 13 are joined by a column base joining member 19.
Further, when such building units 10 (10a, 10b) are arranged adjacent to each other in the vertical direction or the front / rear / right / left direction, they are appropriately connected by positioning pins, connection plates, bolts or the like (not shown).
Further, the lower floor side opening 4a opens a part of the ceiling plate 15 above the lower floor building unit 10a to the lower floor building unit 10a, and removes the ceiling beam 14 at the position of the opening. It is formed by not attaching from the beginning.
Further, the upper floor side opening 4b opens a part of the floor plate 17 below the upper floor building unit 10b with respect to the upper floor building unit 10b, and removes the floor joists 16a at the position of the opening, Or it is formed by not attaching from the beginning.

The first floor of the building 1 is formed by arranging a plurality of building units 10.
Further, the second floor 2 of the building 1 is formed by arranging the plurality of building units 10 on the plurality of building units 10 forming the first floor of the building 1.
The third floor 3 of the building 1 is formed by arranging the plurality of building units 10... On the plurality of building units 10 forming the second floor 2 of the building 1.
In addition, the ceiling board 15, the floor board 17, the wall surface material, etc. are previously attached to the some building unit 10 ... which forms each floor.

The spiral staircase 20 is attached to the lower-floor building unit 10a and the upper-floor building unit 10b that are adjacently arranged in the vertical direction.
The spiral staircase 20 includes a column 21, a base plate 22, a plurality of step plates 23, and a landing 24.

As shown in FIG. 1 and FIG. 3 (a), the support column 21 is a steel column that is long in the vertical direction, and passes from the floor plate 17 of the lower-floor building unit 10a through the blow-off 4. It protrudes above the floor of the upper floor building unit 10b.
Further, as shown in FIGS. 3A and 3B, the base plate 22 is integrally attached to the lower end portion of the support column 21. The base plate 22 is formed in a rectangular shape, and bolt holes 22b through which bolts 22a such as coach bolts are inserted are formed at four corners.

As shown in FIGS. 1 and 5, the plurality of step plates 23 are attached spirally along the vertical direction of the column 21. In other words, the plurality of step plates 23 are radially projected along the vertical direction of the support column 21 with the axis of the support column 21 as the center and sequentially shifting the angle.
The plurality of step plates 23 are welded and firmly attached to the support column 21.
A spiral handrail 23a is attached to the plurality of step plates 23 from the lowermost step plate 23 to the uppermost step plate 23.

The landing 24 has a landing body, a bracket 25, and a handrail 28.
The landing body includes a floor plate 24a and a joist 24b.
As the floor board 24a, for example, a particle board is adopted, and as shown in FIG. 1, the floor board 24a is used as a stage one level higher than the top board 23 located among the plurality of board 23, and the building It is used as a step one level lower than the floor portion of the upper floor 3.
The joist 24b is made of metal, is attached to the edge of the lower surface of the floor plate 24a, and reinforces the floor plate 24a. Further, the end of the joist 24b on the side of the column 21 is welded to the column 21.
The handrail 28 is provided at one edge portion of the upper surface of the floor plate 24 a to prevent the handrail 28 from falling from the landing 24.

As shown in FIGS. 1, 5 and 6, a plurality of the brackets 25 are attached to the lower surface of the floor plate 24a. That is, the plurality of brackets 25... Are an edge on the long side floor beam 13a side and an edge on the short side floor beam 13b side of the upper floor building unit 10b to which the landing 24 is attached. And are spaced apart from each other.
The joists 24b are attached to two sides of the lower surface of the floor plate 24a where the brackets 25 are not attached.

The bracket 25 includes a bracket main body 26 attached to the lower surface of the floor plate 24a, and is formed integrally with the bracket main body 26, and is connected to the long side floor beam 13a and the short side floor beam 13b of the upper floor building unit 10b. And a base end portion 27 to be fixed.
The bracket body 26 is fixed to the floor plate 24a by screws 26a or the like. Further, the base end portion 27 is fixed to the long side floor beam 13a and the short side floor beam 13b by a bolt 27a such as a coach bolt.

The first reinforcing portion 5 is provided at the site of the lower floor building unit 10a to which the base plate 22 of the column 21 of the spiral staircase 20 as described above is fixed. That is, the lower floor building unit 10 a includes the first reinforcing portion 5.
Moreover, the 2nd reinforcement part 6 is provided in the site | part of the said upper floor building unit 10b to which the landing 24 of the said spiral staircase 20 is fixed. That is, the upper floor building unit 10 b includes the second reinforcing portion 6.

  The first reinforcing portion 5 and the second reinforcing portion 6 are made of a metal horizontal member that constitutes the lower floor building unit 10a and the upper floor building unit 10b, respectively, and fixed to the horizontal member and the spiral staircase. Twenty struts 21 and a landing 24 are each provided with wooden base materials 50 and 60 to be fixed.

As shown in FIGS. 1, 3, and 4, the horizontal member constituting the first reinforcing portion 5 includes the floor joists 16 and the reinforcing material 51.
The floor joist 16 constitutes the floor portion of the lower-floor building unit 10a as described above, and has a substantially U-shaped cross section.
The reinforcing member 51 is made of the same metal as the floor joist 16 and has a cross-sectional size that is slightly smaller than the floor joist 16 and has a substantially U-shaped cross section. Further, the reinforcing member 51 in the case of the present embodiment is set so that the length is shorter than the floor joist 16 and longer than the base plate 22, and is disposed below the vicinity of the base plate 22. The The length of the reinforcing member 51 may be substantially equal to the floor joist 16.
As shown in FIG. 3B, the floor joists 16 and the reinforcing member 51 are joined so that the openings face each other. That is, the horizontal member constituting the first reinforcing portion 5 is joined to the floor joist 16 and the reinforcing member 51 so that the openings are opposed to each other, so that the base plate 22 is disposed. Correspondingly, the cross section is formed in a substantially rectangular tube shape. The reinforcing member 51 is welded to the floor joist 16 and is firmly joined.
As a result, the opening of the floor joist 16 is closed, so that the floor joist 16 can be reinforced by the reinforcing material 51.

The wooden base material 50 that constitutes the first reinforcing portion 5 is a square member, and is fixed to the side surface of the floor joist 16 and the side surface of the reinforcing material 51 as shown in FIGS. ing.
The base materials 50 and 50 which are in contact with the side surface of the floor joist 16 and the side surface of the reinforcing member 51 are bonded by an adhesive. Adjacent base materials 50 and 50 are also bonded together by an adhesive. Moreover, you may use screws etc. together.
Further, the base material 50 is set to have a length substantially equal to that of the reinforcing material 51 and is disposed below the vicinity of the base plate 22. When the length of the reinforcing material 51 is substantially equal to the floor joists 16, the base material 50 and the reinforcing material 51 may be set to different lengths.

As shown in FIGS. 1 and 3B, the floor plate 17 is placed on the top surfaces of the horizontal member and the base material 50. The base plate 22 of the column 21 of the spiral staircase 20 is placed on the upper surface of the floor plate 17, disposed above the horizontal member and the base material 50, and fixed to the base material 50 by the bolts 22 a. .
Accordingly, the support column 21 can be more reliably supported by the reinforced horizontal member and the base material 50, and the lower end portion of the support column 21 is supported by the horizontal member in a state where the support column 21 is supported by the horizontal member. It can be fixed to the material 50. Further, since the base material 50 is made of wood, the bolt 22a can be easily screwed in.
As described above, the lower end portion of the column 21 of the spiral staircase 20 can be easily and firmly fixed to the lower-floor building unit 10a.

As shown in FIGS. 1, 5, and 6, the horizontal member constituting the second reinforcing portion 6 includes the floor beam 13 and a reinforcing member 61.
The floor beam 13 constitutes a floor portion of the upper-floor building unit 10b, and has a substantially U-shaped cross section. The floor beam 13 includes the long side floor beam 13a and the short side floor beam 13b orthogonal to the long side floor beam 13a.
The reinforcing member 61 is made of the same metal as the floor beam 13, has a cross-sectional size slightly smaller than the floor beam 13, and has a substantially U-shaped cross section. The length of the reinforcing member 61 is set to be short, and a plurality of the reinforcing members 61 having such a short length are provided at appropriate intervals in the length direction of the long side floor beam 13a. A plurality of short side floor beams 13b are provided at appropriate intervals in the length direction. In the present embodiment, three short reinforcing members 61 are provided on the long side floor beam 13a side and three on the short side floor beam 13b side.
The long side floor beams 13a and short side floor beams 13b and the plurality of reinforcing members 61 are joined so that the openings face each other. That is, the horizontal member constituting the second reinforcing portion 6 joins the long-side floor beam 13a and the short-side floor beam 13b and the plurality of reinforcing members 61, with the openings facing each other. By doing so, the cross section is partially formed in a substantially rectangular tube shape. The plurality of reinforcing members 61 are welded and firmly joined to the long side floor beam 13a and the short side floor beam 13b.
As a result, the openings of the long-side floor beam 13a and the short-side floor beam 13b are partially blocked, so that the long-side floor beam 13a and the short-side floor beam 13b can be reinforced by the reinforcing member 61. become.

As shown in FIGS. 5 and 6, the base material 60 constituting the second reinforcing portion 6 includes a first base material 60a and a second base material 60b.
The first base material 60a is a plywood formed in a plate shape, is laid between the plurality of reinforcing members 61, and is fixed to the side surfaces of the plurality of reinforcing members 61.
The second base material 60b is a plywood formed in a square shape, and is fixed to the back surface of the first base material 60a, and between the adjacent reinforcing materials 61, 61 among the plurality of reinforcing materials 61. Has been placed.
In the present embodiment, the first base material 60a is installed between the three reinforcing members 61, 61, 61 of the long side floor beam 13a and the short side floor beam 13b, respectively. It is fixed to the side surfaces of the members 61, 61, 61.
Further, the second base material 60b is disposed between the adjacent reinforcing members 61, 61 among the three reinforcing members 61, 61, 61 of the long side floor beam 13a and the short side floor beam 13b, respectively. It is fixed to the back surface of the first base material 60a. That is, two second base materials 60b are also provided on the long side floor beam 13a side, and two are provided on the short side floor beam 13b side side.
The first base material 60a is bonded to the reinforcing material 61 with an adhesive. The first base material 60a and the second base material 60b are also bonded to each other with an adhesive. Moreover, you may use screws etc. together.

The landing 24 of the spiral staircase 20 is disposed on the side of the base material 60 and is fixed to the base material 60. That is, the landing 24 includes the first base material 60a and the second base material 60b fixed to the side surfaces of the three reinforcing members 61, 61, 61 on the long side floor beam 13a side, and the short side floor beam 13b. It is fixed to each of the first base material 60a and the second base material 60b fixed to the side surfaces of the three reinforcing members 61, 61, 61 on the side.
More specifically, the landing 24 is provided via the plurality of brackets 25 which are arranged at the edge on the long side floor beam 13a side and the edge on the short side floor beam 13b side of the lower surface of the floor plate 24a. The base material 60 fixed to the side surface of the reinforcing material 61 on the long side floor beam 13a side and the base material 60 fixed to the side surface of the reinforcing material 61 on the short side floor beam 13b side. Yes. That is, the plurality of brackets 25 are formed of a first base material 60a and a second base material 60b on the long side floor beam 13a side, and a first base material 60a and a second base material on the short side floor beam 13b side. It arrange | positions in the position corresponding to the material 60b.
Thus, if the landing 24 is fixed to the base material 60, it can be reliably supported by the reinforced horizontal member and the base material 60. In addition, for example, the landing 24 can be supported more securely than cantilevered by being fixed to the base material 60 on either the long side floor beam 13a side or the short side floor beam 13b side. Further, since the base material 60 is made of wood, the bolts 27a can be easily screwed in.
As described above, the landing 24 of the spiral staircase 20 can be easily and firmly fixed to the upper floor building unit 10b.

As shown in FIG. 6, a metal reinforcing material 12c is also joined to the ceiling beam 12 of the lower floor building unit 10a, and the ceiling beam 12 can be reinforced by the reinforcing material 12c. . As shown in FIG. 5, the reinforcing member 12c includes a long side floor beam 13a and a short side floor beam 13b to which the plurality of reinforcing members 61 of the second reinforcing portion 6 are joined, and the long side floor beam 13a. It is attached to another parallel long side floor beam 13a. The lengths of the reinforcing members 12c attached to the floor beams 13a and 13b are set uneven.
A wooden base material 12d is fixed to the side surface of the reinforcing material 12c. The side surface 4d of the base material 12d and the side surface 4 of the base material 60 of the second reinforcing portion 6 are flush with each other, and an inner wall surface material can be attached to these side surfaces.

Next, a method of attaching the spiral staircase 20 to the lower-floor building unit 10a and the upper-floor building unit 10b that are adjacently arranged in the vertical direction will be described.
The plurality of building units 10 constituting the building 1 are stacked on a foundation while being lifted by a crane or the like at the site.

Further, the ceiling unit 15, floor plate 17, wall surface material, and the like are attached to the building unit 10 in advance at a factory or the like. In addition, what can be attached in advance is assumed to be attached in advance to the column 11, the ceiling beam 12, and the floor beam 13.
Further, in the spiral staircase 20, the base plate 22, the plurality of step plates 23, and the landing 24 are attached to the support column 21 in advance. The handrail 28 is attached to the landing 24 in advance.
Furthermore, the said 1st reinforcement part 5 and the 2nd reinforcement part 6 shall also be previously provided in the said lower floor building unit 10a and the upper floor building unit 10b by the factory.

First, the first floor of the building 1 is formed by arranging a plurality of building units 10. Then, the second floor 2 of the building 1 is formed by arranging the plurality of building units 10 on the plurality of building units 10 forming the first floor of the building 1.
At this time, the building unit 10 forming the balcony 8 and the lower floor building unit 10a are installed. Further, the lower floor side opening 4a is formed in advance in the upper part of the lower floor building unit 10a.

Thereafter, the spiral staircase 20 is lifted and placed into the lower floor building unit 10a from the lower floor side opening 4a of the lower floor building unit 10a and placed on the floor board 17.
Then, while arrange | positioning this spiral staircase 20 above the 1st reinforcement part 5 provided in the floor part of the said lower floor building unit 10a, the direction of the circumferential direction is adjusted to a normal position. Then, the base plate 22 is fixed to the base material 50 with the bolts 22a. At this time, the base plate 22 may be temporarily fixed, and when the landing 24 is fixed to the second reinforcing portion 6, it may be fixed together.
Since the base plate 22 at the lower end of the support column 21 can be easily and firmly fixed to the first reinforcing portion 5, the building with the spiral staircase 20 standing on the lower-floor building unit 10a is provided. One upper floor 3 can be formed.

Subsequently, the upper floor 3 of the building 1 is formed by arranging the plurality of building units 10 on the plurality of building units 10 forming the lower floor 2 of the building 1.
At this time, the upper floor building unit 10b is installed on the lower floor building unit 10a so that the spiral staircase 20 is inserted into the upper floor side opening 4b.

Thereafter, the plurality of brackets 25 are fixed to the base material 60 of the second reinforcing portion 6 by the bolts 27a as shown in FIG. The plurality of brackets 25 may be previously fixed to the second reinforcing portion 6 at a factory or the like.
Subsequently, the landing 24 of the spiral staircase 20 is fixed to the second reinforcing portion 6 of the upper floor building unit 10b to which the spiral staircase 20 is attached among the plurality of building units 10 forming the upper floor 3. . That is, the floor plate 24a of the landing 24 is brought into contact with the upper surfaces of the bracket bodies 26 of the plurality of brackets 25, and fixed by the screws 26a.
Since the landing 24 can be easily and firmly fixed to the second reinforcing portion 6 after the upper floor 3 of the building 1 is formed, the spiral staircase 20 can be installed on site.
As described above, the spiral staircase 20 can be attached to the lower-floor building unit 10a and the upper-floor building unit 10b that are adjacently arranged in the vertical direction.

According to the present embodiment, the first reinforcing portion 5 provided at the portion to which the lower end portion of the column 21 of the spiral staircase 20 is fixed has the wooden base material 50, so that the bolt 22a and the like can be stopped. The base plate 22 of the support column 21 can be easily and reliably fixed to the wooden base material 50 by the dressing material. Furthermore, since the base material 50 is fixed to the metal horizontal member, the support column 21 having the base plate 22 fixed to the base material 50 can be reliably supported by the horizontal member. .
In addition, since the second reinforcing portion 6 provided at the portion where the landing 24 of the spiral staircase 20 is fixed has the wooden base material 60, the landing 24 is fixed by a fastening material such as the bolt 27a. It can be easily and reliably fixed to the wooden base material 60. Furthermore, since the base material 60 is fixed to the metal horizontal member, the landing 24 fixed to the base material 60 can be reliably supported by the horizontal member.
Since the spiral staircase 20 can be easily and reliably fixed to the base materials 50 and 60 of the first reinforcing portion 5 and the second reinforcing portion 6 and can be reliably supported by the horizontal member, The attachment state to the lower floor building unit 10a and the upper floor building unit 10b of the spiral staircase 20 can be strengthened. Accordingly, the spiral staircase 20 can be connected to the lower floor building unit 10a and the upper floor building unit 10b at the site even if the spiral staircase 20 is not previously joined and incorporated in the lower floor building unit 10a at a factory or the like. It can be easily and firmly fixed.

Further, since the spiral staircase 20 can be attached to both the lower-floor building unit 10a and the upper-floor building unit 10b, the lower-floor building unit 10a can be attached as compared with the case where it is attached only to the lower-floor building unit 10a. Can reduce the burden on
Furthermore, since the lower floor building unit 10a, the upper floor building unit 10b, and the spiral staircase 20 can be transported separately or lifted by a crane or the like at the site, a special transportation method or lifting There is no need to adopt a method, and the workability of building 1 is excellent.

DESCRIPTION OF SYMBOLS 1 Building 4 Atrium 5 1st reinforcement part 6 2nd reinforcement part 10a Lower floor building unit 10b Upper floor building unit 13 Floor beam 13a Long side floor beam 13b Short side floor beam 16 Floor joist 20 Spiral staircase 21 Strut 22 Base plate 24 Landing place 25 Bracket 50 Base material 51 Reinforcement material 60 Base material 60a First base material 60b Second base material 61 Reinforcement material

Claims (3)

In the installation structure of the spiral staircase in which the spiral staircase is attached to the lower floor building unit and the upper floor building unit that are adjacently arranged in the vertical direction,
The spiral staircase includes a support column, a plurality of step plates spirally attached along the support column, and a landing provided between the uppermost step plate and the floor of the upper building unit. And
The lower floor building unit includes a first reinforcing portion provided at a portion to which a lower end of the spiral stair column is fixed,
The upper floor building unit includes a second reinforcing portion provided at a portion where the landing of the spiral staircase is fixed,
The first reinforcing part and the second reinforcing part are metal horizontal members that constitute the lower floor building unit and the upper floor building unit, respectively,
This is fixed to the horizontal member has struts and the landing of the staircase and possess a wooden base material to be fixed, respectively,
The horizontal member constituting the first reinforcing portion is a floor joist that forms the floor portion of the lower floor building unit and has a substantially U-shaped cross section, and a cross section that is slightly smaller in size than the floor joist. It is formed by joining the floor joists and the reinforcing material so that the openings face each other, and the reinforcing material formed in a substantially U-shape,
The base material constituting the first reinforcing part is fixed to the side surface of the floor joist and the side surface of the reinforcing material,
The spiral staircase mounting structure is characterized in that a lower end portion of a support of the spiral staircase is disposed above the horizontal member and the base material and is fixed to the base material . In the mounting structure of the spiral staircase according to claim 1 ,
The horizontal member constituting the second reinforcing portion is a floor beam that forms the floor portion of the upper-floor building unit and is formed in a substantially U-shaped cross section, and a cross section that is slightly smaller in size than the floor beam. And a reinforcing material that is formed in a substantially U-shape and is located inside the upper-floor building unit with respect to the floor beam, and the floor beam and the reinforcing material are joined so that the openings face each other. Is formed by
The base material constituting the second reinforcing portion is fixed to a side surface of the reinforcing material,
The spiral staircase landing structure is characterized in that the landing area of the spiral staircase is disposed on a side of the base material and fixed to the base material. In the mounting structure of the spiral staircase according to claim 2 ,
The floor beam constituting the floor of the upper building unit is composed of a long side floor beam and a short side floor beam orthogonal to the long side floor beam,
The reinforcing material is bonded to both the long-side floor beam and the short-side floor beam,
The landing is fixed to each of a base material fixed to a side surface of the reinforcing material on the long side floor beam side and a base material fixed to a side surface of the reinforcing material on the short side floor beam side. A spiral staircase mounting structure.

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