JP6207147B2 - Fireproof board support structure for curtain wall and composite fireproof covering structure for steel beam - Google Patents

Description

  The present invention relates to a fireproof board support structure for a curtain wall and a composite fireproof covering structure for a steel beam.

  There is known a fireproof board support structure in which a curtain wall fireproof board provided on a spandrel portion of a curtain wall is supported by a housing such as a slab (for example, see Patent Documents 1 to 3).

  In the technique disclosed in Patent Document 1, a curtain wall fireproof board is accommodated in a frame part formed by aluminum vertical and invisible, and the vertical and curtain wall fireproof board is provided with a vertical bracket or the like. It is supported by the slab.

JP-A-7-324415 JP 2010-065396 A JP 2010-065397 A

  However, in the technique disclosed in the cited document 1, the vertical protrudes from the space between the fireproof boards for the curtain wall arranged on the left and right sides to the indoor side. That is, the stand is not fireproof coated by the fireproof board for curtain walls. Therefore, in the event of a fire, there is a possibility that the aluminum stand will melt and burn out and spread to the upper floor through this part.

  As a countermeasure, a new fire-resistant board (hereinafter referred to as “vertical frame fire-resistant board”) is fixed over the fire wall boards for the curtain wall on both the left and right sides of the vertical wall, and the vertical wall is fire-resistant coated from the indoor side. Conceivable.

  However, depending on the type of curtain wall, the curtain wall fireproof boards on both the left and right sides may behave differently. In this case, there is a possibility that the vertical frame refractory boards fixed to these curtain wall refractory boards may be damaged due to the forced deformation stress caused by different deformation behaviors of the left and right curtain wall refractory boards.

  In view of the above-described facts, an object of the present invention is to suppress breakage of a fireproof board for a vertical frame.

A fireproof board support structure for a curtain wall according to a first aspect includes a curtain wall fireproof board disposed on both left and right sides of a metal vertical frame portion, and a first support member that supports the curtain wall fireproof board on a housing. A vertical frame fireproof board that is structurally separated from the curtain wall fireproof board, and a second support member that supports the vertical frame fireproof board on a housing. I have.

According to the fire wall support structure for a curtain wall according to the first aspect , the fire wall for a curtain wall is arranged on both the left and right sides of the metal vertical frame portion. The vertical frame portion is covered from the indoor side by a vertical frame fireproof board. Therefore, since the temperature rise of the vertical frame portion during a fire is reduced, melting of the vertical frame portion is suppressed.

  Further, the curtain wall fireproof board is supported by the housing by the first support member. On the other hand, the vertical frame fireproof board is structurally separated from the curtain wall fireproof board and supported by the housing by a second support member different from the first support member. As a result, even if the curtain wall fireproof boards on the left and right sides of the vertical frame part show different deformation behaviors, the vertical frame fireproof board is prevented from following the deformation of the curtain wall fireproof boards. . Therefore, damage to the vertical frame fireproof board is suppressed.

The fireproof board support structure for a curtain wall according to a second aspect is the fireproof board support structure for a curtain wall according to the first aspect , wherein the back surface and the side surface of the vertical frame portion are more indoor than the back surface of the fireproof board for the curtain wall. The vertical frame fireproof board is formed in a groove shape covering the back surface and the side surface of the vertical frame portion.

According to the fire wall support structure for a curtain wall according to the second aspect , the back surface and side surfaces of the vertical frame portion are located on the indoor side of the back surface of the fire wall for curtain wall. The back and side surfaces of these vertical frame portions are covered from the indoor side by a vertical frame fireproof board formed in a groove shape. Therefore, since the temperature rise of the vertical frame portion during a fire is reduced, melting of the vertical frame portion is suppressed.

  In addition, by inserting the portion of the vertical frame portion located on the indoor side from the back surface of the curtain wall fireproof board into the groove-shaped vertical frame fireproof board, the back surface and side surfaces of the vertical frame portion are placed indoors. Can be fireproof coated. Therefore, the workability is improved.

The fireproof board support structure for a curtain wall according to a third aspect is the fireproof board support structure for a curtain wall according to the first aspect or the second aspect , wherein the vertical frame fireproof board has at least two places in the upper and lower sides. It is supported by the housing.

According to the fireproof board support structure for a curtain wall according to the third aspect , the vertical frame fireproof board is supported on the casing by the second support member at least at two locations on the top and bottom. Thereby, since the rotation of the fireproof board for vertical frames is suppressed, the support performance of the fireproof board for vertical frames is improved. In addition, since the vertical construction accuracy of the vertical frame fireproof board is increased, the vertical frame fireproof board can be held in contact with or in close proximity to the curtain wall fireproof boards on both the left and right sides of the vertical frame portion. . Therefore, in the event of a fire, it is possible to reduce heat entering from the gap between the curtain wall fireproof boat and the vertical frame fireproof board.

Composite fire protection structure of steel beam according to the fourth aspect, the slabs as skeleton, and steel beams as precursor for supporting the slab, the refractory of any curtain wall according to one of the first aspect to third aspect Curtain wall fireproof board and vertical frame fireproof board supported on the outdoor side of the steel beam by a board support structure, the steel beam is covered from the indoor side and the lower side, and the curtain wall fireproof board and the vertical frame And a fireproof covering material for fireproofing the steel beam together with the fireproof board.

According to the composite fireproof covering structure for steel beams according to the fourth aspect , it is necessary to newly provide a fireproof covering material for covering the outdoor side of the steel beam by diverting the curtain wall fireproof board to cover the outdoor side of the steel beam. There is no. Therefore, improvement in workability and cost reduction can be achieved.

  As described above, according to the fireproof board support structure for a curtain wall and the composite fireproof covering structure for a steel beam according to the present invention, damage to the fireproof board for a vertical frame can be suppressed.

It is the front view which looked at the curtain wall to which the fireproof board support structure of the curtain wall which concerns on one Embodiment of this invention was applied from the outdoor side. FIG. 2 is a sectional view taken along line 2-2 of FIG. FIG. 3 is a sectional view taken along line 3-3 in FIG. 2. FIG. 4 is a cross-sectional view taken along line 4-4 of FIG. FIG. 5A is an enlarged cross-sectional view of FIG. 4 showing the embedded nut in one embodiment of the present invention, and FIG. 5B is a diagram showing a modification of the embedded nut in one embodiment of the present invention in FIG. It is an equivalent expanded sectional view. FIG. 6 is a sectional view taken along line 6-6 of FIG. (A) And (B) is a cross-sectional view which shows the board for vertical frames as a comparative example. FIG. 5 is a partial cross-sectional view corresponding to FIG. 2 illustrating a curtain wall to which a modified example of a fireproof board support structure for a curtain wall according to an embodiment of the present invention is applied. FIG. 5 is a partial cross-sectional view corresponding to FIG. 2 illustrating a curtain wall to which a modified example of a fireproof board support structure for a curtain wall according to an embodiment of the present invention is applied. (A) And (B) is a cross-sectional view which shows the curtain wall to which the modification of the fireproof board support structure of the curtain wall which concerns on one Embodiment of this invention was applied. It is a cross-sectional view which shows the curtain wall to which the modification of the fireproof board support structure of the curtain wall which concerns on one Embodiment of this invention was applied. It is a cross-sectional view which shows the curtain wall to which the modification of the fireproof board support structure of the curtain wall which concerns on one Embodiment of this invention was applied. (A)-(C) are the cross-sectional views which show the junction part of the fireproof board for CW, and the fireproof board for vertical frames in the modification of the fireproof board support structure of the curtain wall which concerns on one Embodiment of this invention.

  A curtain wall fireproof board support structure according to an embodiment of the present invention and a steel beam composite fireproof covering structure including the same will be described below with reference to the drawings. In each figure, an arrow IN appropriately shown indicates the indoor side, and an arrow OUT indicates the outdoor side.

(curtain wall)
FIGS. 1 and 2 show a curtain wall 20 to which a curtain wall fireproof board support structure (hereinafter simply referred to as “fireproof board support structure”) 10 according to the present embodiment is applied. The curtain wall 20 has a curtain wall body 22 that constitutes the outer wall of the structure.

(Curtain wall body)
The curtain wall body 22 is disposed on the outdoor side of the slab 12 made of reinforced concrete and the steel beam 14 of H-shaped steel that supports the end of the slab 12. The steel beam 14 is disposed substantially parallel to the curtain wall body 22. The curtain wall body 22 is a unit type including a plurality of curtain wall units 24 arranged vertically and horizontally, and is formed in a wall shape by assembling the plurality of curtain wall units 24 in the field.

  The curtain wall body 22 has a plurality of window portions 22A and a plurality of spandrel portions 22B provided between the upper and lower floor window portions 22A. In the following description, the curtain wall unit 24 constituting the window 22A and the curtain wall unit 24 constituting the spandrel 22B may be described separately from the curtain wall units 24A and 24B.

  As shown in FIG. 2, the curtain wall unit 24 includes an aluminum frame 26 and window glass 28 (two in this embodiment) attached to the frame 26. The horizontal frame member 26A of the frame body 26 is formed in a cylindrical shape having a substantially rectangular cross section, and constitutes the horizontal frame portion 22X of the curtain wall body 22 together with the horizontal frame member 26A of another adjacent frame body 26. Further, the vertical frame member 26B (see FIG. 3) of the frame body 26 is formed in a cylindrical shape having a substantially rectangular cross section, and the vertical frame portion 22Y of the curtain wall body 22 together with the vertical frame member 26B of the other adjacent frame body 26. Is configured. Note that the horizontal frame portion 22X and the vertical frame portion 22Y correspond to the invisible and vertical of the curtain wall body 22.

  A frame-shaped window glass rail 30 that holds the outer periphery of two window glasses 28 is provided on the outdoor side of the frame body 26. Two window glasses 28 are attached to the window glass rail 30 in advance in a factory or the like. One window glass 28 may be used.

  The curtain wall unit 24 </ b> B constituting the spandrel part 22 </ b> B is located on the outdoor side of the slab 12 and the steel beam 14. A curtain wall fireproof board 60 as an interlayer partition member is attached to the frame body 26 of the curtain wall unit 24B.

(Fireproof board for curtain wall)
The curtain wall fireproof board (hereinafter referred to as “CW fireproof board”) 60 is a fireproof board for suppressing the spread of fire from the spandrel 22B to the upper floor in the event of a fire, and is composed of a rectangular fiber-mixed calcium silicate plate. Has been. The CW fireproof board 60 is disposed in the frame body 26 of the curtain wall unit 24B so as to face the window glass 28, and the peripheral edge portion thereof is provided on the inner peripheral surface of the frame body 26. It is held by rails 32 for use. Moreover, the technique disclosed by the cited reference 2 and the cited reference 3 is used for the CW fireproof board 60, and it is directly supported from the building frame (frame).

  As shown in FIG. 3, the CW fireproof board 60 is disposed adjacent to the left and right with the vertical frame portion 22 </ b> Y of the curtain wall main body 22 interposed therebetween. From between the CW fireproof boards 60, the indoor side end 22Y1 of the vertical frame portion 22Y protrudes to the indoor side. That is, the both side surfaces and the back surface (the indoor side surface) of the indoor side end 22Y1 are located on the indoor side with respect to the back surface of the CW fireproof board 60. The indoor side end 22Y1 is covered with fireproof from the indoor side by the vertical frame fireproof board 70.

(Fireproof board for vertical frame)
The vertical frame fireproof board 70 is a fireproof board that covers the vertical frame portion 22Y of the spandrel portion 22B with fireproof from the indoor side, and extends in the vertical direction along the vertical frame portion 22Y. The vertical frame fireproof board 70 is formed in a groove shape (substantially U-shaped in cross section) that is open on the outdoor side (vertical frame portion 22Y side). have. In this embodiment, the vertical frame refractory board 70 is formed by bonding three fiber-mixed calcium silicate plates in a groove shape. Further, the height of the bottom wall portion 70A is made lower than the height of the pair of left and right side wall portions 70B, and a fastener 34 and a vertical frame bracket 44, which will be described later, from above the bottom wall portion 70A It can be inserted between.

  The vertical frame fireproof board 70 is disposed across a pair of CW fireproof boards 60 disposed on the left and right sides of the vertical frame portion 22Y, and the indoor side end 22Y1 of the vertical frame portion 22Y is inserted therein. ing. Thereby, the both sides | surfaces and back surface of indoor side edge part 22Y1 are covered from the indoor side by the fireproof board 70 for vertical frames.

  Further, the opening-side end portions 70B1 of the side wall portions 70B on both sides of the vertical frame fireproof board 70 are in contact with or close to the back surfaces of the pair of CW fireproof boards 60, respectively. Thereby, at the time of a fire, it is suppressed that a heat | fever penetrate | invades into the inside of the fireproof board 70 for vertical frames from the clearance gap between the back surface of a pair of CW fireproof board 60, and the opening side edge part 70B1 of both sides. In addition, when a clearance gap is formed between the back surface of the CW fireproof board 60 and opening side edge part 70B1, you may fill a clearance gap with joint members, such as a rock wool board, a ceramic blanket, and a foaming fireproof seal.

  The vertical frame fireproof board 70 is not fixed to the pair of CW fireproof boards 60 and is structurally separated from the CW fireproof boards 60. Thus, the vertical frame fireproof board 70 does not follow the deformation of the pair of CW fireproof boards 60. Here, the vertical frame fireproof board 70 and the pair of CW fireproof boards 60 are structurally separated from each other when the vertical frame fireproof board 70 and the CW fireproof board 60 are within the plane due to an earthquake or the like. When deformed in the vertical and horizontal directions, the vertical frame fireproof board 70 and the CW fireproof board 60 can be separately deformed, and each through the joint portion between the vertical frame fireproof board 70 and the CW fireproof board 60. This refers to the state where no stress is generated. In other words, the pair of CW fireproof boards 60 and the vertical frame fireproof boards 70 supported by structurally different methods are held in contact with each other without a gap or in a state where they are close to each other with a slight gap. And both are structurally completely disconnected.

  Thus, in the state where the vertical frame fireproof board 70 and the pair of CW fireproof boards 60 are structurally separated, the vertical frame fireproof board 70 and the pair of CW fireproof boards 60 are not completely joined. When the vertical frame fireproof board 70 and the pair of CW fireproof boards 60 are displaced relative to each other, the vertical frame fireproof board 70 and the pair of CW fireproof boards 60 are connected to each other. A configuration in which joining is easily released is also included. A configuration in which the CW fireproof board 60 and the vertical frame fireproof board 70 are joined with low strength will be described later.

  Further, as shown in FIG. 2, the vertical frame fireproof board 70 is arranged from the lower horizontal frame portion 22X to the slab 12 in the spandrel portion 22B. Thereby, the site | part of the indoor side edge part 22Y1 of the vertical frame part 22Y located below the slab 12 is covered with the fireproof board 70 for vertical frames.

(Curtain wall support structure and fireproof board support structure)
As shown in FIG. 2, the vertical frame portion 22 </ b> Y in the spandrel portion 22 </ b> B is supported by the steel beam 14 via a fastener 34 and a pair of vertical frame brackets 44.

  The fastener 34 is formed of an L-shaped steel plate in a side view, and extends upward from an outdoor end portion of the fixing portion 34A, and a fixing portion 34A fixed to the upper surface of the upper flange portion 14A of the steel beam 14. Connecting portion 34B. A rectangular notch 12 </ b> A that exposes the upper flange portion 14 </ b> A of the steel beam 14 is formed at the end of the slab 12. Further, an interlayer plug 16 is provided between the slab 12 and the CW fireproof board 60 and the vertical frame fireproof board 70 (gap). Here, as the interlayer plugging material, a method of installing rock wool on a thin steel plate having a thickness of about 1.6 mm can be considered. The interlayer plug 16 prevents the heat of the lower floor from entering the upper floor from between the refractory board 60 for CW and the slab 12 in the event of a fire.

  The fixing portion 34A is fixed to the upper flange portion 14A of the steel beam 14 with bolts 38 (see FIG. 3) and nuts (not shown). On the other hand, the connecting portion 34B faces the vertical frame portion 22Y, and a pair of vertical frame brackets 44 are connected to the connecting portion 34B by bolts 40 and nuts 42. Note that a bracket 62 for supporting a CW fireproof board 60 described later on the steel beam 14 is also connected to the connecting portion 34B.

  Each of the pair of vertical frame brackets 44 has upper and lower ends attached to the vertical frame member 26B by bolts 46 and nuts 48 (see FIGS. 3 and 4). Further, an intermediate portion in the vertical direction of the vertical frame bracket 44 protrudes in a convex shape toward the indoor side, and is connected to the connecting portion 34B of the fastener 34 by the bolt 40 and the nut 42 described above. Furthermore, an overhanging portion 44 </ b> A is provided at the upper end portion of the vertical frame bracket 44 so as to project upward from the connecting portion 34 </ b> B of the fastener 34. The overhanging portion 44A is provided with a height adjusting bolt 50 that contacts the upper end portion of the connecting portion 34B and adjusts the connecting height of the vertical frame bracket 44 to the connecting portion 34B. With the height adjusting bolt 50, the mounting height of the curtain wall body 22 with respect to the steel beam 14 can be adjusted.

  Although not shown, the through hole for the bolt 38 formed in the fixing portion 34A of the fastener 34 is loose so that the fixing position of the fixing portion 34A with respect to the upper flange portion 14A of the steel beam 14 can be adjusted in the indoor / outdoor direction. It is a hole. Similarly, at least one of the through holes for the bolts 40 formed in the connecting portion 34B of the fastener 34 and the vertical frame bracket 44 can adjust the connecting position of the fastener 34 and the vertical frame bracket 44 left and right and up and down. It is a loose hole. Thereby, the attachment position of the curtain wall main body 22 with respect to the steel beam 14 can be adjusted. Further, when the building is deformed due to an earthquake or the like, the curtain wall body 22 can exhibit a deformation behavior different from that of the building frame (frame). Depending on the type of curtain wall, as shown in FIG. 3, the vertical frame bracket 44 is separated on the left and right, and the left vertical frame bracket 44 and the right vertical frame bracket 44 exhibit different deformation behaviors during an earthquake or the like. You can also

  As shown in FIG. 3, a pair of brackets 62 as a pair of first support members that respectively support the CW fireproof boards 60 disposed on the left and right sides of the vertical frame portion 22 </ b> Y are provided on the connecting portion 34 </ b> B of the fastener 34. It is connected. The pair of brackets 62 are formed of a steel plate bent in a crank shape in plan view, and project from the connecting portion 34B of the fastener 34 to the left and right sides. Each bracket 62 includes a connecting portion 62A connected to the connecting portion 34B of the fastener 34, an extending portion 62B extending from the connecting portion 62A to the CW fireproof board 60 side (outdoor), and a tip of the extending portion 62B. And a mounting portion 62 </ b> C provided in the portion.

  The connecting portion 62A of the bracket 62 is connected (jointly tightened) together with the vertical frame bracket 44 to the connecting portion 34B of the fastener 34 by the bolt 40 and the nut 42 (see FIG. 2). The mounting portion 62C is overlapped on the back surface of the CW fireproof board 60, and the bolt 64 penetrating the mounting portion 62C is fastened to the embedded nut 66 embedded in the CW fireproof board 60, whereby the mounting portion 62C is attached. A CW fireproof board 60 is attached. That is, the CW fireproof board 60 is supported by the steel beam 14 via the bracket 62 and the fastener 34. However, since the bracket 62 that supports the CW fireproof board 60 is connected to the vertical frame bracket 44 as described above, the CW fireproof board 60 follows the movement of the curtain wall main body 22 during an earthquake, and the building frame ( Deformation behavior is different from that of the case.

  On the other hand, as shown in FIG. 2, the vertical frame fireproof board 70 is supported by the upper flange portion 14 </ b> A of the steel beam 14 via a pair of upper brackets 72 and a pair of vertical middle portions. It is supported by the lower flange portion 14B of the steel beam 14 through the lower bracket 82. Therefore, the vertical frame fireproof board 70 follows the movement of the building frame (frame) during an earthquake.

  As shown in FIG. 4, the pair of upper brackets 72 as the second support members are formed of L-shaped steel plates in plan view, and are opposite to each other on the left and right sides of the vertical frame fireproof board 70. Has been placed. Each upper bracket 72 has a fixing portion 72A fixed to the upper flange portion 14A of the steel beam 14 and an attachment portion 72B to which the vertical frame fireproof board 70 is attached. The fixing portion 72A is provided at one end portion of the upper bracket 72, and is fixed to the upper surface of the upper flange portion 14A of the steel beam 14 via an angle 74. The attachment portion 72B is provided at the other end portion of the upper bracket 72 and overlaps the side wall portion 70B of the vertical frame fireproof board 70. The bolt 76 penetrating the mounting portion 72B is fastened to the embedded nut 78 embedded in the side wall portion 70B of the vertical frame refractory board 70, whereby the side wall portion 70B of the vertical frame refractory board 70 is attached to the mounting portion 72B. It has been.

  Here, to supplement the embedded nut 78, as shown in FIG. 5A, the embedded nut 78 is inserted into the through hole 80 formed in the side wall portion 70B of the vertical frame fireproof board 70 from the inside. A cylindrical female threaded portion 78A, and a disk-shaped flange portion 78B that projects radially outward from one end of the female threaded portion 78A and is engaged (surface contacted) with the inner surface of the side wall 70B. . The disk-shaped flange portion 78B is coupled to the side wall portion 70B of the vertical frame fireproof board 70 with screws or the like. As shown in FIG. 5B, the female screw portion 78A may be set to be equal to or shorter than the length of the through hole 80 of the vertical frame fireproof board 70. The side wall 70B is fixed to the mounting portion 72B by fastening the bolt 76 that passes through the mounting portion 72B of the upper bracket 72 from the outside of the side wall 70B to the female screw portion 78A. Further, by gripping the peripheral portion of the through hole 80 from both sides by the mounting portion 72B and the flange portion 78B of the embedded nut 78, the concentration of stress on the peripheral portion is suppressed. Thereby, the damage of the peripheral part of the through-hole 80, etc. are suppressed. The embedded nut 66 embedded in the pair of CW fireproof boards 60 has the same configuration as the embedded nut 78. In the present embodiment, the shape of the flange portion 78B of the embedded nut 78 is a disc shape, but is not limited thereto, and may be a rectangular shape, for example.

  As shown in FIG. 2, a pair of lower brackets 82 as second support members are disposed below the pair of upper brackets 72. As shown in FIG. 6, the pair of lower brackets 82 are formed of L-shaped steel plates in plan view like the upper bracket 72, and are opposite to each other on the left and right sides of the vertical frame fireproof board 70. Is arranged. The lower bracket 82 has a fixing portion 82A that is fixed to the lower flange portion 14B of the steel beam 14 via an angle 83, and an attachment portion 82B to which the vertical frame fireproof board 70 is attached. The bolts 84 penetrating the mounting portion 82B are fastened to embedded nuts 86 embedded in the side wall portion 70B of the vertical frame fireproof board 70, whereby the side wall portion 70B of the vertical frame fireproof board 70 is attached to the mounting portion 82B. It has been. The embedded nut 86 has the same configuration as the embedded nut 78 described above.

  Thus, in the present embodiment, the vertical frame fireproof board 70 is supported by the steel beam 14 through the pair of upper brackets 72 and the pair of lower brackets 82 that are spaced apart in the vertical direction. In other words, the vertical frame fireproof board 70 is supported by the steel beam 14 at two locations, upper and lower, by the pair of upper brackets 72 and the pair of lower brackets 82. Thereby, the rotation of the vertical frame fireproof board 70 in the arrow S direction (see FIG. 2) is suppressed. Furthermore, since vertical distortion of the vertical frame fireproof board 70 can be adjusted, the construction accuracy is improved, and the vertical frame fireproof board 70 is in contact with the CW fireproof boards 60 on the left and right sides of the vertical frame portion 22Y without any gaps. Or it can hold | maintain in the state which adjoined. In addition, in order to suppress the rotation of the vertical frame fireproof board 70 in the arrow S direction (see FIG. 2) and appropriately adjust the vertical distortion, the distance between the pair of upper brackets 72 and the pair of lower brackets 82 is determined. L (see FIG. 2) is desirably 20% or more of the height (vertical length) of the vertical frame fireproof board 70.

(Composite fireproof structure of steel beam)
As shown in FIG. 2, the steel beam 14 is applied with a steel beam composite fireproof covering structure 90 (hereinafter simply referred to as “composite fireproof covering structure”) 90 using a CW fireproof board 60. That is, the steel beam 14 is fire-coated with the CW fire-proof board 60 and the indoor fire-proof board 92 and the lower fire-resistant board 102 as fire-resistant coating materials.

  Specifically, an indoor fireproof board 92 is disposed on the indoor side of the steel beam 14, and a lower fireproof board 102 is disposed on the lower side of the steel beam 14. Similar to the CW fireproof board 60, the indoor fireproof board 92 and the lower fireproof board 102 are formed of a fiber mixed calcium silicate board.

  The indoor fireproof board 92 is arranged substantially vertically and is fixed to a spacer 94 provided between a pair of upper and lower upper flange portions 14A and 14B of the steel beam 14 with a fixing pin 96. The indoor side fireproof board 92 covers the indoor side of the steel beam 14. The spacer 94 is formed of a non-combustible material such as a fiber mixed calcium silicate plate.

  On the other hand, the lower refractory board 102 is disposed substantially horizontally, and is fixed to the angle 104 attached to the lower surface of the lower flange portion 14B of the steel beam 14 with a fixing pin 106. The indoor side end portion 102 </ b> A of the lower fireproof board 102 is abutted against the lower end portion of the indoor side fireproof board 92 and joined by a fixing pin 96. On the other hand, a notch (not shown) is formed in the outdoor end 102B of the lower fireproof board 102, and the vertical frame fireproof board 70 is inserted into the notch.

  Further, as shown in FIG. 6, joint members 108 are provided on the upper surface of the outdoor side end portion 102 </ b> B of the lower fireproof board 102 along the rear surface of the CW fireproof board 60 and the outer surface of the vertical frame fireproof board 70. It has been. These joint members 108 block gaps between the lower fireproof board 102, the CW fireproof board 60, and the vertical frame fireproof board 70, so that heat can be prevented from entering the steel beam 14 side from the gaps. ing.

  Next, the operation of this embodiment will be described.

  As shown in FIG. 4, a pair of CW fireproof boards 60 are arranged on both the left and right sides of the vertical frame portion 22Y of the spandrel 22B. From between the CW fireproof boards 60, the indoor side end 22Y1 of the vertical frame portion 22Y protrudes to the indoor side. A vertical frame fireproof board 70 formed in a groove shape is disposed on the indoor side of the vertical frame portion 22Y. The vertical frame fireproof board 70 is disposed over a pair of CW fireproof boards 60 disposed on the left and right sides of the vertical frame portion 22Y, and the indoor side end 22Y1 of the vertical frame portion 22Y is inserted therein. Yes. The indoor side end 22Y1 of the vertical frame portion 22Y is covered with fireproof from the indoor side by the vertical frame fireproof board 70. Thereby, since the temperature rise of the vertical frame part 22Y at the time of a fire is reduced, melting etc. of the vertical frame part 22Y are suppressed. As a result, the spread of fire from the pair of CW fireproof boards 60 to the upper floor is suppressed.

Further, by arranging the vertical frame fireproof board 70 across the pair of CW fireproof boards 60, the gap between the CW fireproof boards 60 is closed by the vertical frame fireproof board 70. As a result, even if the vertical frame portion 22Y is melted and burned, the heat received from the outdoor side due to the blowout flame or the like of the lower floor window opening (lower floor window portion 22A) from between the pair of CW fireproof boards 60 Intrusion to the beam 14 side is suppressed.
Therefore, since the temperature rise of the steel beam 14 is reduced, the fire resistance performance of the steel beam 14 is improved.

  Here, as a method of supporting the vertical frame fireproof board 70, as shown in the comparative example shown in FIG. 7A, the pair of CW fireproof boards 60 arranged on the left and right sides of the vertical frame portion 22Y are angled. It is conceivable to attach the opening side end portion 200 </ b> A of the vertical frame refractory board 200 through 202. In this case, when the left and right CW fireproof boards 60 exhibit the same deformation behavior, the vertical frame fireproof boards 200 can follow the deformation of the pair of CW fireproof boards 60. However, depending on the type of curtain wall, the left and right CW fireproof boards 60 may be deformed separately. For example, the case where the vertical frame bracket 44 shown in FIG. 4 is used corresponds to this. If the left and right CW refractory boards 60 exhibit different deformation behaviors, the vertical frame refractory board 200 cannot follow this movement, and may be damaged due to forced deformation stress. In particular, the unit-type curtain wall main body 22 is often designed so that the curtain wall units 24B adjacent to the left and right can move separately.

  In order to suppress damage to the vertical frame fireproof board 200 when the CW fireproof board 60 having different deformation behaviors on the left and right is used, for example, as shown in FIG. A method may be considered in which 200 is divided into two at the center of the bottom wall portion 200B and the gap is closed with a joint member 204 such as glass wool. The joint member 204 is supported by a base material 208 attached to the bottom wall portion 200B with screws 206. However, this method is complicated and difficult to construct. In addition, since the vertical frame fireproof board 200 is attached to the left and right CW fireproof boards 60, additional stress is generated in the CW fireproof board 60, which may cause breakage or the like. is not.

  On the other hand, in this embodiment, the vertical frame fireproof board 70 is not attached to the pair of CW fireproof boards 60 and is structurally separated from the pair of CW fireproof boards 60 (the edges are Is cut). In addition, the vertical frame fireproof board 70 is attached to the steel beam 14 via a pair of upper brackets 72 and a pair of lower brackets 82 different from the brackets 62 that support the pair of CW fireproof boards 60. Thus, even if the pair of CW fireproof boards 60 exhibit different deformation behaviors, the vertical frame fireproof board 70 is suppressed from following the deformation of the CW fireproof boards 60. Therefore, damage to the vertical frame fireproof board 70 is suppressed.

  In the present embodiment, since the bracket 62 that supports the CW fireproof board 60 and the vertical frame bracket 44 that supports the vertical frame member 26B of the curtain wall unit 24B are connected to the same fastener 34, the bracket 62 and The vertical frame bracket 44 behaves integrally. Therefore, the CW fireproof board 60 can follow the displacement of the curtain wall unit 24B.

  Further, in the present embodiment, the vertical frame fireproof board 70 is supported by the steel beam 14 at the upper and lower positions by the pair of upper brackets 72 and the pair of lower brackets 82. Thereby, since the rotation of the vertical frame fireproof board 70 in the arrow S direction (see FIG. 2) is suppressed, the support performance of the vertical frame fireproof board 70 is improved. Thereby, the construction accuracy can be improved, and the vertical frame fireproof board 70 can be held in contact with or in close proximity to the pair of CW fireproof boards 60. Therefore, in the event of a fire, heat that enters through the gap between the pair of CW fireproof boards 60 and the side wall portions 70B of the vertical frame fireproof boards 70 can be reduced.

  Furthermore, the vertical frame fireproof board 70 is formed in a groove shape. Therefore, by inserting the indoor side end portion 22Y1 of the vertical frame portion 22Y into the vertical frame fireproof board 70, the both side surfaces and the back surface of the vertical frame portion 22Y can be easily fireproof coated. Therefore, the workability is improved.

  Furthermore, in this embodiment, it is not necessary to newly provide a fireproof covering material that covers the outdoor side of the steel beam 14 by diverting the CW fireproof board 60 to cover the outdoor side of the steel beam 14. Therefore, improvement in workability and cost reduction can be achieved.

  Next, a modification of the above embodiment will be described.

  In the above embodiment, an example in which the vertical frame fireproof board 70 is supported on the steel beam 14 by the pair of upper brackets 72 and the pair of lower brackets 82 as the second support members has been described, but the present invention is not limited thereto. The second support member only needs to be fixed to a beam, column, slab, or the like as a frame. For example, as shown in FIG. 8, a pair of upper brackets 72 are fixed to the upper surface of the slab 12 via an angle 74. You may do it.

  In the modification shown in FIG. 8, the upper end portion of the vertical frame fireproof board 70 reaches the horizontal frame portion 22X on the upper side of the spandrel portion 22B, and the vertical frame portion of the span drel portion 22B is covered by the vertical frame fireproof board 70. 22Y is refractory coated over its entire length. Thereby, the melting | fusing etc. of the upper end part of the vertical frame part 22Y located above the slab 12 can also be suppressed.

  Moreover, in the said embodiment, although the vertical frame fireproof board 70 was supported on the steel beam 14 in two places up and down by a pair of upper bracket 72 and a pair of lower bracket 82 as a 2nd supporting member was shown. Not limited to this. The number and arrangement of the second support members can be appropriately changed, and the vertical frame fireproof board 70 can be supported by the steel beam 14 at one or more places by at least one second support member.

  In addition, when the vertical frame fireproof board 70 is supported by the casing at one location on the upper end side by the pair of upper brackets 72, for example, as shown in FIG. May be provided. The holding arm 120 extends downward from the mounting portion 72B of the upper bracket 72, and a lower end portion thereof is fixed to the side wall portion 70B of the vertical frame fireproof board 70 by a bolt 122 and an embedded nut (not shown).

  Thus, by providing the holding arm 120 in the upper bracket 72, the rotation of the vertical frame fireproof board 70 in the arrow S direction can be suppressed. Further, the workability is improved by supporting the vertical frame fireproof board 70 on the slab 12 at one place by the upper bracket 72. In the modification shown in FIG. 9, the pair of upper brackets 72 as the second support members are fixed to the upper surface of the slab 12 via the angles 74, but the second support members are beams, columns as columns. It only has to be fixed to the slab.

  Moreover, in the said embodiment, although the example which attached the upper side bracket 72 to the side wall part 70B of the fireproof board 70 for vertical frames was shown, it does not restrict to this. For example, as shown in FIG. 10A, brackets 130 as second support members may be attached to both ends in the width direction of the bottom wall portion 70 </ b> A of the vertical frame fireproof board 70. In this case, as compared with the case where the bracket 130 is attached to the side wall portion 70B of the vertical frame fireproof board 70, the rotation of the vertical frame fireproof board 70 in the arrow S direction (see FIG. 9) is suppressed.

  Further, for example, as shown in FIG. 10B, a bracket 132 as a second support member may be attached to the center portion in the width direction of the bottom wall portion 70A of the vertical frame fireproof board 70. In this case, the effort of attaching the bracket 132 to the vertical frame fireproof board 70 can be reduced while suppressing the rotation of the vertical frame fireproof board 70 in the arrow S direction (see FIG. 9).

  Further, for example, as shown in FIG. 11, the second support member may be provided with a cover portion 140 </ b> B surrounding the vertical frame fireproof board 70. Specifically, the bracket 140 as the second support member is provided at a fixing portion 140A fixed to a housing (not shown) and an end portion on the outdoor side of the fixing portion 140A, and surrounds and holds the fireproof board 70 for the vertical frame. Cover portion 140B.

  The cover part 140B is formed in a C shape with the outdoor side opened in plan view, and the vertical frame fireproof board 70 is fitted therein. The bolt 76 passing through the opening side end 140B1 of the cover 140B is fastened to the embedded nut 78 embedded in the side wall 70B of the vertical frame fireproof board 70, whereby the vertical frame fireproof board 70 is attached to the cover 140B. Side wall portion 70B is attached. Thus, the support performance of the vertical frame fireproof board 70 can be improved by surrounding the vertical frame fireproof board 70 with the cover 140B.

  Moreover, in the said embodiment, although the example which formed the fireproof board 70 for vertical frames in the groove shape was shown, it does not restrict to this. The shape of the vertical frame fireproof board 70 can be changed as appropriate. For example, as shown in FIG. 12, the indoor side end 22Y1 of the vertical frame portion 22Y protrudes indoors from between a pair of CW fireproof boards 60. If not, the vertical frame portion 22Y may be covered with fireproof from the indoor side by the vertical frame fireproof board 150 formed in a flat plate shape.

  Specifically, the vertical frame fireproof board 150 is disposed on the indoor side of the pair of CW fireproof boards 60 and extends over the CW fireproof boards 60. The vertical frame fireproof board 150 is supported on the casing by attaching a bracket 152 as a second support member fixed to the casing (not shown) to the embedded nut 78 embedded in the center in the width direction by a bolt 76. Has been. The gap between the vertical frame fireproof board 150 and the pair of CW fireproof boards 60 may be appropriately closed with a joint member 154 such as a rock wool board, a ceramic blanket, or a foam fireproof seal.

  Moreover, in the said embodiment, as a structure which joins the fireproof board 60 for CW mentioned above and the fireproof board 70 for vertical frames with low intensity | strength, as shown to FIG. 13 (A), for example, the fireproof board for vertical frames A joint material 160 such as a fireproof sealant is filled into the joint portion (corner portion) between the opening side end portion 70B1 and the CW fireproof board 60 from the outside of the 70, and the opening side end portion 70B1 and the CW fireproof board 60 are lowered. It is conceivable to bond with strength. Alternatively, as shown in FIG. 13B, a joint material 162 such as a refractory sealant is applied to at least a part of the end surface of the opening side end portion 70B1, and the opening side end portion 70B1 is connected to the CW through the joint material 162. It adheres to the back surface of the fireproof board 60 for use with low strength. In such a case, when the vertical frame fireproof board 70 and the CW fireproof board 60 are relatively displaced, the low strength of the vertical frame fireproof board 70 and the CW fireproof board 60 by the joint material 160 or the joint material 162. Since the bonding (bonding) is released, it is possible to prevent the vertical frame fireproof board 70 and the CW fireproof board 60 from being damaged.

  As another example, for example, as shown in FIG. 13C, a magnet 164 is embedded in the back surface of the CW fireproof board 60, and the opening side end portion 70 </ b> B <b> 1 of the vertical frame fireproof board 70 is embedded. The magnet 166 is embedded, and the CW fireproof board 60 and the opening side end portion 70B1 of the vertical frame fireproof board 70 are joined with low strength by the magnetic force of the magnets 164 and 166. Also in this case, when the vertical frame fireproof board 70 and the CW fireproof board 60 are relatively displaced, the low strength bonding between the vertical frame fireproof board 70 and the CW fireproof board 60 by the magnets 164 and 166 is released. For this reason, the occurrence of breakage or the like in the vertical frame fireproof board 70 and the CW fireproof board 60 is suppressed.

  Moreover, in the said embodiment, the example which attached the vertical frame bracket 44 which supports the vertical frame part 22Y of the spandrel part 22B, and the bracket 62 which supports the CW fireproof board 60 to the steel beam 14 via the same fastener 34 is shown. However, it is not limited to this. The vertical frame bracket 44 and the bracket 62 can be separately attached to the housing.

  Moreover, although the example which formed the fireproof board 60 for CW and the fireproof board 150 for vertical frames with the fiber mixed calcium silicate board was shown in the said embodiment, it is not restricted to this. The CW fireproof board 60 and the vertical frame fireproof board 150 are formed of, for example, a gypsum board, a reinforced gypsum board, a slate board, a mortar board, a rock wool board, a ceramic fiber board, a PC board, an ALC panel, and an extruded cement board. You may do it.

  In the above embodiment, the unit type curtain wall main body 22 has been described as an example. However, the above embodiment can also be applied to a knockdown type curtain wall main body. In this case, the vertical in the knockdown curtain wall body corresponds to the vertical frame portion 22Y in the above embodiment. In addition, the vertical frame portion 22Y in the above embodiment is not limited to aluminum but may be made of metal such as steel.

  Moreover, although the said embodiment showed the example which used the indoor side fireproof board 92 and the lower fireproof board 102 as a fireproof coating material which covers the indoor side and the lower side of the steel beam 14 fireproofly, it is not restricted to this. As fireproof covering materials, for example, fiber mixed calcium silicate board, slate board, gypsum board, reinforced gypsum board, mortar board, rock wool board, ceramic fiber board, PC board, ALC panel, extruded cement board, etc. should be used. Can do. Further, for example, a spraying type fireproof coating material such as sprayed rock wool, a wrapping type fireproof coating material such as ceramic fiber blanket, high heat resistant rock wool, or the like can be used as the fireproof coating material.

  Moreover, although the example which applied the composite fireproof coating structure 90 to the steel beam 14 was shown in the said embodiment, the composite fireproof coating structure 90 can be abbreviate | omitted suitably.

  As mentioned above, although one embodiment of the present invention was described, the present invention is not limited to such an embodiment, and one embodiment and various modifications may be used in combination as appropriate, and the gist of the present invention will be described. Of course, various embodiments can be implemented without departing from the scope.

10 Curtain wall fireproof board support structure 12 Slab (frame)
14 Steel beam (frame)
22Y Vertical frame portion 60 Fireproof board for curtain wall 62 Bracket (first support member)
70 Fireproof board for vertical frame 72 Upper bracket (second support member)
82 Lower bracket (second support member)
90 Compound fireproof covering structure 92 Indoor fireproof board (fireproof covering material)
102 Lower fireproof board (fireproof coating)
130 Bracket (second support member)
132 Bracket (second support member)
140 Bracket (second support member)
150 Fireproof board for vertical frame 152 Bracket (second support member)

Claims (4)

Fire wall boards for curtain walls placed on the left and right sides of the metal vertical frame,
A first support member for supporting lifting the refractory boards the curtain wall to the skeleton rather than the vertical frame portion,
Covering the vertical frame portion from the indoor side, and the vertical frame fireproof board structurally separated from the curtain wall fireproof board,
A second support member for supporting lifting the refractory boards the vertical frame to skeleton rather than the vertical frame portion,
Curtain wall fireproof board support structure with. The back and side surfaces of the vertical frame portion are located on the indoor side of the back surface of the curtain wall fireproof board,
The vertical frame fireproof board is formed in a groove shape covering the back surface and the side surface of the vertical frame portion,
The fireproof board support structure for a curtain wall according to claim 1. The vertical frame fireproof board is supported by the housing from the second support member in at least two places at the top and bottom,
The fireproof board support structure for a curtain wall according to claim 1 or 2. Slab as a body,
A steel beam as a frame supporting the slab;
A fireproof board for a curtain wall and a fireproof board for a vertical frame supported on the outdoor side of the steel beam by the curtain wall fireproof board support structure according to any one of claims 1 to 3.
Covering the steel beam from the indoor side and the lower side, and a fireproof coating material for covering the steel beam with the fireproof board for the curtain wall and the vertical frame fireproof board,
Composite fireproof covering structure of steel beam with

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