JP6140434B2 - sash - Google Patents

Description

  The present invention relates to a technique for improving the fireproof performance of a window (sash).

  Conventionally, as disclosed in, for example, Patent Document 1, a technique for improving fireproof performance in a sliding window (drawing sash) in which a shoji and a shoji are housed in a frame within a frame is known. Yes.

  In Patent Document 1, fireproof performance is improved by preventing hot air or smoke from entering from the drainage path of the lower frame in the event of a fire. The structure to provide is disclosed.

  Further, as disclosed in Patent Document 2, an opening / closing device that can simplify the appearance of a decorative window (decorative window) such as a sliding window (sliding sash) or a FIX window is also known.

  In Patent Document 2, the shoji frame has a so-called hidden frame structure that is concealed by a sash frame that surrounds the frame, and the inner end of the frame and the frame in the direction in which the frame is located are substantially at the same position. By doing so, a structure is realized in which the frame is hidden by the frame when viewed from the indoor side.

JP 2012-122303 A JP 2011-144554 A

  As described above, the sliding window as disclosed in Patent Document 1 and the decorative window including the hidden fence as disclosed in Patent Document 2 are different in the structure of the frame and the structure of the frame. is there.

  In recent years, there has been a demand for further improvements in fire protection performance for decorative windows, especially for those with special structures such as hidden folds, which are conventional window technologies that do not have a hidden fold structure. It was difficult to apply as it was, and a new structure was desired.

  Therefore, in view of the above configuration, the present invention proposes a novel technique for improving the fire prevention performance of a sliding window having a hidden ridge structure.

  The problem to be solved by the present invention is as described above. Next, means for solving the problem will be described.

That is, as described in claim 1,
A recess is provided around the outside of the building opening,
The indoor side surface of the indoor side finding surface part of the frame body assembled by the vertical frame and the horizontal frame in the recess,
By placing it in contact with the wall surface of the dent,
The frame body is concealed by the indoor side opening component as viewed from the indoor side of the building opening,
A stile constituting the frame of shoji which is openably arranged to the frame, the frame is made of metal,
Let the sash be the structure where the said ridge was concealed by the indoor side opening part structural member seeing from the indoor side of the building opening part .

Further, as described in claim 2, the shoji is configured to be openable and closable, and an open / close operation mechanism for opening and closing the shoji, a friction lock mechanism for maintaining the open state of the shoji, and the shoji closed. A part or all of the resin parts for configuring an opening / closing related mechanism such as a closed lock mechanism for maintaining the state is further configured such that the fireproof member is accommodated within the range in the thickness direction of the frame body. .
In addition, as described in claim 3, a refractory material is provided between the frame body and the ridge to be heated and foamed and expanded during a fire to fill a gap between the frame body and the ridge. It will be done.

  As effects of the present invention, the following effects can be obtained.

That is, in the invention described in claim 1, a concealed soot structure is realized, and in the event of a fire, the soot is difficult to burn as in the case of the frame, and high fire prevention performance can be exhibited.

Further, in the invention described in claim 2, the exposure of the resin parts constituting the open / close related mechanism is reduced, the ignition of the resin parts is suppressed, and the fire prevention performance can be improved.
In the invention described in claim 3, in the event of a fire, the gap between the ridge and the frame is filled, and the spread of fire spread through the gap can be prevented.

It is an inside view of the vertical sliding window which is one Embodiment of this invention. It is the sectional view on the AA line of FIG. It is the BB sectional view taken on the line of FIG. It is an expanded cross section of the site | part of a lower frame. It is an expanded cross section of the site | part of an upper frame. It is an expanded cross section of the site | part of the vertical frame of the suspension origin side. It is an expanded cross section of the site | part of the vertical frame on the door end side. It is a figure explaining the state by which the clearance gap between the fence and the frame was filled at the time of a fire. (A) is a figure explaining arrangement | positioning of the come-off prevention member. (B) is a figure explaining one embodiment of a slip-off prevention member. (C) is a figure explaining embodiment in a side sliding window. (A) is a figure explaining the structure of a slip prevention member and a curvature prevention metal fitting. (B) is a figure explaining a mode that curvature prevention metal fittings contact in the case of a fire. (A) is a figure explaining the shape of a slip-off prevention member. (B) is a figure explaining the shape of a curvature prevention metal fitting.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.
FIG. 1 is an interior view of a longitudinal sliding window 1 according to an embodiment of the present invention. In this vertical sliding window 1, a decorative window having a so-called hidden fence structure in which the walls 21 to 24 surrounding the four sides of the glass 20 are hidden when viewed from the indoor side is realized. In addition, as an embodiment of a decoration window, it can also be considered as a vertical sliding window, a lateral sliding window, a raising / lowering window, a FIX window, and a louver window. In addition to the decorative window, the present invention can also be applied to a sliding window having a hidden ridge structure.

  The shoji 2 provided with the glass 20 is opened so as to slide out of the room by operating an opening / closing operation mechanism 60 (also referred to as “operator mechanism”) configured to have a rotating handle.

  FIG. 2 is a cross-sectional view taken along line AA of FIG. 1, and an upper frame 31 and a lower frame 34 that constitute the window frame 30 of the vertical sliding window 1, and a glass 20 that forms the shoji 2 of the vertical sliding window 1; Upper arm 21 and lower arm 24 are shown. As shown in FIG. 2, recessed portions 201 and 202 are provided around the outdoor side of the building opening, and the indoor-side finding surface portion of the frame body formed by the vertical and horizontal frames in the recessed portions 201 and 202. Are installed in contact with the wall surfaces 203 and 204 of the recesses so that the frame body is on the indoor side of the building opening. When viewed from the inside, the structure is concealed by the indoor side opening component members (window frames 75 and 78 and resin angles 71 and 74). An indoor wall 206 is arranged outside the window frames 75 and 78 in the direction of finding.

  FIG. 3 is a cross-sectional view taken along the line B-B in FIG. 1. The vertical frames 32 and 33 constituting the window frame 30 of the vertical sliding window 1, the glass 20 configuring the shoji 2 of the vertical sliding window 1, and the vertical fence 22 and 23 are shown. The vertical fence 22 is configured to be on the suspension side, and the vertical fence 23 is configured to be on the door end side, and the vertical screen 23 is configured to move greatly to the outdoor side so that the shoji 2 slides out to the outdoor side. . As shown in FIG. 3, recessed portions 301 and 302 are provided around the outdoor side of the building opening, and the indoor-side finding surface portion of the frame body formed by the vertical and horizontal frames in the recessed portions 301 and 302. Are installed in contact with the wall surfaces 303 and 304 of the recesses so that the frame body is on the indoor side of the building opening. When viewed from the inside, the structure is concealed by the indoor side opening component members (window frames 76 and 77 and resin angles 72 and 73). An indoor wall 206 is disposed outside the window frames 76 and 77 in the direction of finding.

  FIG. 4 shows an enlarged cross section of the lower frame 34. The lower frame 34 is a light-weight metallic long member formed by extrusion molding aluminum, and an outdoor side frame portion 34a formed below the lower arm 24 of the shoji 2 when the shoji 2 is closed, An indoor side frame portion 34b formed on the indoor side of the outdoor side frame portion 34a, an intermediate frame portion 34c formed between the outdoor side frame portion 34a and the indoor side frame portion 34b, and the like are configured. .

  A plate surface portion 34d constituting a lateral surface is formed in the outdoor frame portion 34a, and a sheet-like refractory material 54d having a belt shape is attached to the plate surface portion 34d.

  Plate surface portions 34e and 34f that face up and down are formed on the intermediate frame portion 34c, and sheet-like refractory materials 54e and 54f each having a belt shape are attached to the plate surface portions 34e and 34f, respectively.

A resin angle 74 is attached to a portion on the indoor side of the glass 20 above the indoor side frame portion 34b. Under direction of this, that is, as hidden inside, the drive transmission mechanism 61 for opening and closing mechanism 60 is accommodated.

  The drive transmission mechanism 61 is connected to an operation tool 85 disposed outside the resin angle 74. As shown in FIGS. 2 and 3, the operation tool 85 is constituted by a rotary handle.

  The drive transmission mechanism 61 is connected to the lower arm 24 of the shoji 2 via a link mechanism 97 configured to have a plurality of arm members.

  The resin angle 74 is formed with a groove 74 a for fitting the edge member 87 a of the screen door 87. A plate surface portion 34e of the intermediate frame portion 34c is arranged below the groove portion 74a.

  The indoor side frame portion 34 b is provided with a holding piece portion 34 m that protrudes indoors, and a holding piece portion 74 f that faces the holding piece portion 34 f is provided in the resin angle 74. And the outdoor side edge part of the window frame 78 is inserted between both holding piece parts 34m and 71f, and is fixed by fitting. The upper surface 78g of the window frame 78 and the upper surface 74g of the resin angle 74 are configured to have substantially the same height.

  FIG. 4 shows an enlarged cross section of the lower eyelid 24. The lower arm 24 is a light metal long member formed by extruding aluminum, and includes a finding surface portion 24a constituting a vertical surface on the outdoor side and a finding surface portion 24b constituting a vertical surface on the indoor side. And plate surface portions 24c and 24d constituting the lateral surface.

  The lower end portion of the finding surface portion 24a is located below the plate surface portion 34d of the lower frame 34, and a belt-like sheet-like refractory material 54e is attached to the indoor side surface of the finding surface portion 24a. Yes.

  In the lower rod 24, a groove-like space 24k whose upper side is opened by the finding surface portions 24a and 24b and the plate surface portion 24c is formed, and a glass channel is formed in the space 24k through a grating channel 68 having a substantially U-shaped cross section. The lower end of 20 is inserted, and the glass 20 and the lower eyelid 24 are integrated.

  Between the grating channel 68 and the finding surface portion 24a and the plate surface portion 24c of the lower rod 24, a slip-off preventing member 84 is provided for preventing the glass 20 from being detached from the lower rod 24 in the event of a fire. The detachment prevention member 84 is bolted to the plate surface portion 24c.

  A belt-shaped sheet-like refractory material 54g is provided at a position between the grating channel 68 and the plate surface portion 24c of the lower rod 24. The refractory material 54g is attached to the plate surface portion 24c.

  A link mechanism 97 is connected to the indoor-side finding surface portion 24b of the lower collar 24. By extending the link mechanism 97 in the outdoor direction, the lower collar 24 slides out to the outdoor side. Yes.

  A friction lock mechanism 94 is connected to the lower plate surface portion 24 d of the lower rod 24. The friction lock mechanism 94 is provided so as to be slidable with respect to the guide frame 34g fixed to the lower frame 34. When the shoji 2 is opened, the friction lock mechanism 94 is stretched between the lower rod 24 and the guide frame 34g. Thus, a frictional force is generated so that the shoji 2 can be kept open.

  The indoor side surface 24b of the lower eyelid 24 is disposed outside (in a direction away from the center of the glass 20) in the direction N of the resin-made angle 74 when viewed from the indoor side. The hidden surface structure is realized in which the finding surface portion 24b is hidden when viewed from the indoor side (not visible by the resin angle 74).

  FIG. 5 shows an enlarged cross section of the upper frame 31. The upper frame 31 is a lightweight metal long member formed by extruding aluminum, and the outdoor frame 31a formed above the upper collar 21 of the shoji 2 in a state where the shoji 2 is closed, An indoor side frame portion 31b formed on the indoor side of the outdoor side frame portion 31a, an intermediate frame portion 31c formed between the outdoor side frame portion 31a and the indoor side frame portion 31b, and the like are configured. .

  A plate surface portion 31d constituting a lateral surface is formed in the outdoor side frame portion 31a.

  A vertical surface portion 31e in the vertical direction is formed on the intermediate frame portion 31c, and a sheet-like refractory material 51e having a belt shape is attached to the vertical surface portion 31e.

  A resin angle 71 is attached to a portion on the indoor side of the glass 20 below the indoor side frame portion 31b.

  The resin angle 71 is formed with a groove 71 a for fitting the edge member 87 a of the screen door 87. The vertical surface portion 31e of the intermediate frame portion 31c is arranged above the groove portion 71a.

  The indoor side frame portion 31 b is provided with a holding piece portion 31 f that protrudes toward the indoor side, and a holding piece portion 71 f that faces the holding piece portion 31 f is provided on the resin angle 71. And the outdoor side edge part of the window frame 75 is inserted between both holding piece parts 31f and 71f, and is fixed by fitting. The lower surface 75g of the window frame 75 and the lower surface 71g on the indoor side of the resin angle 71 are configured to have substantially the same height.

  FIG. 5 shows an enlarged cross section of the upper collar 21. The upper collar 21 is a light metal long member formed by extruding aluminum. The upper surface 21 has a vertical surface on the outdoor side and a vertical surface 21b on the indoor side. And a plate surface portion 21c constituting the lateral surface.

  The upper end portion of the finding surface portion 21a is located above the plate surface portion 31d of the upper frame 31, and a belt-like sheet-like refractory material 51e is attached to the indoor side surface of the finding surface portion 21a. .

  In the upper collar 21, a groove-like space 21f whose lower surface is opened is formed by the finding surface portions 21a and 21b and the plate surface portion 21c, and a glass channel is formed in the space 21f via a grating channel 65 having a substantially U-shaped cross section. The upper end of 20 is inserted, and the glass 20 and the upper eyelid 21 are integrated.

  A slip-off preventing member 81 is provided between the grating channel 65 and the finding surface portion 21a and the plate surface portion 21c of the upper rod 21 to prevent the glass 20 from being detached from the upper rod 21 in the event of a fire. The come-off preventing member 81 is bolted to the plate surface portion 21c.

  A belt-like sheet-like refractory material 51g is provided at a position between the grating channel 65 and the plate surface portion 21c of the upper collar 21. The refractory material 51g can be attached to the detachment preventing member 81 or the plate surface portion 21c.

  In the plate surface portion 21c of the upper collar 21, a refractory material 51h is attached to the upper surface opposite to the glass 20.

  A friction lock mechanism 91 is coupled to the plate surface portion 21 c of the upper collar 21. The friction lock mechanism 91 is provided so as to be slidable with respect to the guide frame 31g fixed to the upper frame 31, and when the shoji 2 is opened, it is stretched between the upper collar 21 and the guide frame 31g. Thus, a frictional force is generated so that the shoji 2 can be kept open.

  The indoor-side finding surface portion 21b of the upper collar 21 is disposed on the outer side (in the direction away from the center of the glass 20) in the finding direction N than the resin angle 71 when viewed from the indoor side. The hidden surface structure is realized in which the finding surface portion 21b is hidden when viewed from the indoor side (not visible by the resin angle 71).

  FIG. 6 shows an enlarged cross section of the portion of the vertical frame 32 on the suspension source side. The vertical frame 32 is a light metal long member formed by extruding aluminum, and the outdoor frame 32a formed on the side of the vertical rod 22 of the shoji 2 when the shoji 2 is closed. The indoor frame 32b is formed on the indoor side of the outdoor frame 32a, and the intermediate frame 32c is formed between the outdoor frame 32a and the indoor frame 32b. The

  The outdoor frame portion 32a is formed with a prospective surface portion 32d extending in the prospective direction M, and a belt-like sheet-like refractory material 52d is attached to the prospective surface portion 32d.

  The intermediate frame portion 32c is formed with a finding surface portion 32e extending in the finding direction N, and a belt-like sheet-like refractory material 52e is attached to the finding surface portion 32e.

  A resin angle 72 is attached to a portion on the indoor side of the glass 20 in the indoor side frame portion 32b.

  The resin angle 72 is formed with a groove 72 a for fitting the edge member 87 a of the screen door 87. The finding surface portion 32e of the intermediate frame portion 32c is arranged on the side of the groove portion 72a.

  The indoor side frame portion 32 b is provided with a holding piece portion 32 f that protrudes toward the indoor side, and a holding piece portion 72 f that faces the holding piece portion 32 f is provided on the resin angle 72. And the outdoor side edge part of the window frame 76 is inserted between both holding piece parts 32f and 72f, and is fixed by fitting. The prospective surface 76g of the window frame 76 and the prospective surface 72g of the resin angle 72 are configured to be disposed on substantially the same plane.

  FIG. 6 shows an enlarged cross section of the part of the downspout 22. The vertical rod 22 is a lightweight metallic long member formed by extrusion molding of aluminum, and includes a finding surface portion 22a that forms a vertical surface on the outdoor side and a finding surface portion 22b that forms a vertical surface on the indoor side. And a prospective surface portion 22c constituting the prospective surface.

  A packing 22p is provided on the outer side end portion of the finding surface portion 22a in the finding direction N, and the packing 22p is in contact with the expecting surface portion 32d of the vertical frame 32 to ensure airtightness.

  In the vertical shaft 22, a groove-like space 22f whose inside in the finding direction N is opened is formed by the finding surface portions 22a and 22b and the expecting surface portion 22c, and the grating channel 66 having a substantially U-shaped cross section in the space 22f. The side end of the glass 20 is inserted through the glass 20, and the glass 20 and the vertical gutter 22 are integrated.

  A slip-off preventing member 82 for preventing the glass 20 from being detached from the vertical rod 22 in the event of a fire is provided between the grating channel 66 and the finding surface portion 22a and the expected surface portion 22c of the vertical rod 22. The come-off preventing member 82 is bolted to the prospective surface portion 22c.

  A belt-shaped sheet-like refractory material 52g is provided at a position between the grating channel 66 and the prospective surface portion 22c of the vertical rod 22. The refractory material 52g can be attached to the detachment preventing member 82 or the prospective surface portion 22c.

  A refractory material 52 h is attached to the surface opposite to the glass 20 in the prospective surface portion 22 c of the vertical rod 22.

  Warp prevention metal fittings 92 and 93 facing each other are provided at an interval between the expectation surface portion 22c of the vertical rod 22 and the expectation surface portion 32d of the vertical frame 32. In addition, the interval between the warp preventing metal fittings 92 and 93 is reduced to prevent the warp of the wrinkles so that the glass 20 is difficult to come off.

  The indoor-side finding surface portion 22b of the vertical gutter 22 is arranged outside (in a direction away from the center of the glass 20) in the finding direction N from the resin angle 72 when viewed from the indoor side. The hidden surface structure is realized in which the finding surface portion 22b is hidden when viewed from the indoor side (not visible by the resin angle 72).

  FIG. 7 shows an enlarged cross section of a portion of the vertical frame 33 on the door end side. The vertical frame 33 is a lightweight metallic long member formed by extruding aluminum, and the outdoor frame 33a formed on the side of the vertical rod 23 of the shoji 2 when the shoji 2 is closed. The indoor frame 33b is formed on the indoor side of the outdoor frame 33a, and the intermediate frame 33c is formed between the outdoor frame 33a and the indoor frame 33b. The

  A prospective surface portion 33d extending in the prospective direction M is formed on the outdoor side frame portion 33a, and a belt-like sheet-like refractory material 53d is attached to the prospective surface portion 33d.

  The intermediate frame portion 33c is formed with a finding surface portion 33e extending in the finding direction N, and a belt-like sheet-like refractory material 53e is attached to the finding surface portion 33e.

  A resin angle 73 is attached to a portion of the indoor side frame portion 33b on the indoor side of the glass 20.

  The resin angle 73 is formed with a groove 73 a for fitting the edge member 87 a of the screen door 87. A finding surface portion 33e of the intermediate frame portion 33c is arranged on the side of the groove portion 73a.

  The indoor side frame portion 33 b is provided with a holding piece portion 33 f that protrudes to the indoor side, and a holding piece portion 73 f that faces the holding piece portion 33 f is provided on the resin angle 73. And the outdoor side edge part of the window frame 77 is inserted between both holding piece parts 33f and 73f, and is fixed by fitting. The expectation surface 77g of the window frame 77 and the expectation surface 73g of the resin angle 73 are configured to be disposed on substantially the same plane.

  FIG. 7 shows an enlarged cross-sectional view of the part of the vertical shaft 23. The vertical rod 23 is a light metal long member formed by extrusion molding of aluminum, and a finding surface portion 23a constituting a vertical surface on the outdoor side and a finding surface portion 23b constituting a vertical surface on the indoor side. And a prospective surface portion 23c constituting the prospective surface.

  A packing 23p is provided at the outer side end of the finding surface portion 23a in the finding direction N, and the packing 23p is in contact with the expecting surface portion 33d of the vertical frame 33 to ensure airtightness.

  In the vertical shaft 23, a groove-like space 23f whose inner side in the finding direction N is opened is formed by the finding surface portions 23a and 23b and the expecting surface portion 23c, and a grating channel 67 having a substantially U-shaped cross section in the space 23f. The side end portion of the glass 20 is inserted through the glass 20, and the glass 20 and the vertical gutter 23 are integrated.

  A slip-off preventing member 83 is provided between the grating channel 67 and the face part 23a and the face part 23c of the vertical rod 23 to prevent the glass 20 from coming off the vertical rod 23 in the event of a fire. The come-off preventing member 83 is bolted to the prospective surface portion 23c.

  A belt-like sheet-like refractory material 53g is provided at a position between the grating channel 67 and the prospective surface portion 23c of the vertical rod 23. The refractory material 53g can be attached to the detachment preventing member 83 or the prospective surface portion 23c.

  A refractory material 53 h is attached to the surface opposite to the glass 20 in the prospective surface portion 23 c of the vertical rod 23.

  The vertical rod 23 on the door end side is configured to be locked with respect to the vertical frame 33 via a closing lock mechanism 96. By this closing lock mechanism 96, the vertical rod 23 is firmly held with respect to the vertical frame 33 so that the state in which the shoji 2 is closed can be maintained.

  The indoor side finding surface portion 23b of the vertical rod 23 is arranged outside (in the direction away from the center of the glass 20) in the direction of finding N from the resin angle 73 when viewed from the indoor side. The hidden surface structure 23b is hidden when viewed from the indoor side (not visible by the resin angle 73).

Next, a characteristic configuration in the above configuration will be described in detail.
First, as representatively shown in FIGS. 2 and 4,
Recessed portions 201 and 202 are provided around the outdoor side of the building opening, and the indoor-side surface (upper surface) of the indoor-side finding surface portion of the frame body formed by the vertical and horizontal frames in the recessed portions 201 and 202 is provided. By installing the mounting piece 231 in the frame 31 and the mounting piece 234 in the lower frame 34 in contact with the wall surfaces 203 and 204 of the recesses, the frame body is viewed from the indoor side of the building opening. The folds (lower folds 24) that constitute the frame of the shoji 2 that is concealed by the structural members (window frames 75 and 78 and resin angles 71 and 74) and that can be opened and closed on the frame (lower frame 34). ) And the frame (lower frame 34) are made of metal.

  Thereby, at the time of a fire, a firewood becomes difficult to burn like a frame, and can show high fireproof performance.

  In addition, as representatively shown in FIG. 4, the heel (lower heel 24) is an aluminum member.

  Thereby, compared with the case where a gutter (lower gutter 24) is comprised with the composite frame body of a resin member and an aluminum member, for example, the deformation | transformation at the time of a fire is suppressed and it prevents that the glass 20 remove | deviates from a gutter. it can.

  4, 5, and 7, the shoji 2 is configured to be openable and closable, and an opening / closing operation mechanism 60 for opening and closing the shoji 2 and the shoji 2 are opened. A part or all of the resin parts for constituting the opening / closing-related mechanism such as the friction lock mechanisms 91 and 94 for maintaining the sliding mechanism and the closing lock mechanism 96 for maintaining the closed state of the shoji 2 The fire prevention members (refractory materials 54d, 54e, 54f) are configured to be accommodated within the range in the thickness direction (the range of the dimension in the direction of finding N) of the frame (lower frame 34, upper frame 31, vertical frame 33). .

  Thereby, the exposure of the resin component which comprises an opening-and-closing related mechanism decreases, the ignition of this resin component is suppressed, and it becomes possible to improve fire prevention performance.

  Also, as representatively shown in FIG. 4, in the event of a fire, between the frame (lower frame 34) arranged outside in the direction N of finding the kite (lower kite 24) and the kite (lower kite 24) It is set as the sash provided with the hidden ridge structure provided with the fire prevention member (fireproof material 54d, 54e, 54f) for filling up the clearance gap of this.

  As a result, for example, as shown in FIG. 8, in the event of a fire, the gap S between the hail (lower hail 24) and the frame (lower frame 34) is filled, and the spread of fire spread through the gap S can be prevented. it can. Further, the refractory materials 54d, 54e, 54f also function as heat insulating materials, and heat transfer can be prevented. Further, the resin member disposed in the gap S covers the refractory materials 54d, 54e, 54f, thereby preventing the resin member from being ignited.

  In addition, as a fireproof member, a commercial item can be used. Specifically, for example, an organic refractory material such as “FIBLOCK” (registered trademark) manufactured by Sekisui Chemical Co., Ltd. can be used. In a normal state, it is a flexible thin sheet, and when heated to 200 ° C. or higher, it foams and expands 5 to 40 times in the thickness direction to form a heat insulating layer, which is suitable for the implementation of the present invention. In addition, there is an advantage that there is no loss during a fire or generation of harmful gases. Moreover, since it can install by sticking, in the construction with respect to a long member, it will be excellent also in workability.

  In addition, as representatively shown in FIGS. 3, 6, and 9 </ b> A, recessed portions 301 and 302 are provided around the outdoor side of the building opening, and the recessed portions 301 and 302 are provided in the recessed portions 301 and 302. The indoor-side surface (the mounting piece 332 in the vertical frame 32 and the mounting piece 333 in the vertical frame 33) of the indoor-side finding surface portion of the frame body assembled by the vertical frame and the horizontal frame is brought into contact with the wall surfaces 303 and 304 of the recessed portions. The frame body is concealed by the indoor side opening component members (window frame frames 76 and 77 and resin angles 72 and 73) when viewed from the indoor side of the building opening portion by being installed in contact with the frame body. The cage (vertical rod 22) and the frame (vertical frame 32 (FIG. 6)) constituting the frame of the demagnetization 2 arranged to be openable and closable on the (vertical frame 32) are made of metal, and the rod (vertical rod 22). In order to prevent the glass 20 from coming off the fence (vertical fence 22) in the event of a fire It is set to be because member 82 can be provided.

  Thereby, in the event of a fire, the glass 20 is prevented from coming off from the kite (vertical kite 22), and high fireproof performance can be exhibited. The detachment preventing member 82 also functions as a reinforcing member that reinforces the frame (vertical rod 22 (FIG. 2)).

  Further, as representatively shown in FIG. 6, the detachment prevention member 82 is assumed to be accommodated in a groove-like space 22 f of a ridge (vertical ridge 22) for fitting the glass 20.

  Thereby, it becomes possible to conceal the slip-off preventing member 82 on the inner side of the rod (vertical rod 22), and the aesthetic appearance is not impaired by the slip-off preventing member 82 in the hidden rod structure.

  Further, as representatively shown in FIG. 9 (B), the locking member 82 is a long member provided along the longitudinal direction of the heel (vertical ridge 22), and is provided on the ridge (vertical ridge 22). It is supposed to be configured shorter than the length.

  In the example of FIG. 9B, the vertical rod 22 has a configuration in which a detachment prevention member 82 having a length of about 2/3 of the vertical rod 22 is provided. Similarly, the vertical rod 23 has a configuration in which a detachment prevention member 83 having a length of about 2/3 of the vertical rod 23 is provided. Similarly, the upper collar 21 has a configuration in which a detachment prevention member 81 having a length approximately half that of the upper collar 21 is provided. The lower rod 24 has a configuration in which two detachment preventing members 84 having a length of about 1/5 of the lower rod 24 are provided with a space therebetween.

  Accordingly, for example, even when sashes having different sizes exist and the lengths of the heels of the respective sashes are different, it is necessary to prepare a locking member having a length corresponding to the length of each of the lashes on a one-to-one basis. In addition, the parts can be shared for the stopper member. In addition, for example, in the case of a custom-sized sash designed in units of 1 mm, the length of the ridge is appropriately designed. However, by making the detachment prevention member shorter than the ridge, it is custom-made. It is possible to deal with size sashes.

  The length of the stopper member can be set as appropriate. For example, in the case of the longitudinal sliding window 1 having a long vertical dimension as shown in FIG. It is preferable that the length of the flange 22 is longer than 1/2. In addition, it is possible that the function of preventing the separation is implemented in a range longer than ½ as a whole by arranging a plurality of parts at intervals instead of one continuous one.

  Moreover, as shown in FIG.5 and FIG.9 (B), the shoji 2 is formed by brazing the rectangular glass 20, and in the corner portions Ka to Kd at the four corners, at least two diagonally are in a diagonal relationship with each other. In the vicinity of the corner portions Ka and Kc, the stopper members 81, 82, and 84 are arranged.

  Accordingly, it is possible to effectively prevent the stopper from coming off at the diagonal positions at the four corners of the top, bottom, left, and right. In other words, it is possible to suppress detachment prevention at at least one location in the vertical direction and at least one location in the horizontal direction. The vicinity means a side closer to the corners Ka to Kd than the center in the longitudinal direction of the ridge.

  Moreover, as shown in FIG.5 and FIG.9 (B), the sash (vertical sliding window 1) is a sliding window rotated from the suspension origin side, and is horizontal on the upper part of a sash (vertical sliding window 1). The detachment prevention member 81 provided on the heel (upper ridge 21) arranged in the direction is provided on the suspending side (the suspending source TM side in FIG. 9B) in the longitudinal direction of the heel (upper ridge 21). I am going to do that.

  Thereby, it can suppress firmly that the glass 20 will remove | deviate in the upper part of the glass which is easy to remove | deviate from a firewood in the case of a fire. In addition, in the lower part of glass, since the dead weight acts on the lower eyelid 24, the glass 20 becomes comparatively difficult to remove. Further, when the friction lock mechanism 91 is provided on the suspending side, and the friction lock mechanism 91 has a resin part, there is a concern that the strength of the heel (upper collar 21) may be reduced due to the ignition of the resin part. In particular, it is preferable to provide a detachment prevention member 81 on the suspension side. Moreover, about the form in which the closing lock mechanism 96 (FIG. 7) is provided about the door end side (door end TS side in FIG. 9 (B)), since the door end side is firmly hold | maintained by the closing lock mechanism 96, this It is preferable to provide a detachment prevention member 81 on the suspending side where the closing lock mechanism 96 is not provided.

  In addition, as shown in FIG. 9C, in the embodiment with the side sliding window 1A, it is located on the side wall of the sash (side sliding window 1A) and is disposed in the vertical direction (vertical rod 22A, 23A). It is conceivable that the anti-slip members 82A and 83A provided are provided on the suspension base TM side in the longitudinal direction of the eaves (vertical eaves 22A and 23A).

  Further, as representatively shown in FIG. 10A, the anti-slip member 82 has at least a portion facing the outdoor side surface 20a of the glass 20, and the outdoor side surface 20a of the glass 20 is provided at the time of a fire. It has an opposing surface part 82a for holding.

  Thereby, at the time of a fire, the outdoor side surface 20a of the glass 20 is hold | maintained, and it can prevent effectively that the glass 20 remove | deviates to an outdoor side. In particular, the finding surface portion 22a constituting the vertical surface on the outdoor side of the kite (vertical rod 22) is exposed to the outside and is directly exposed to flame when a fire occurs on the outdoor side. Since the temperature easily rises and is easily deformed as compared with the finding surface portion 22b constituting the inner vertical surface, it is preferable to provide the facing surface portion 82a. On the other hand, the finding surface portion 22b constituting the vertical surface on the indoor side has a flame on the indoor side due to the presence of the indoor side frame portion 32b of the vertical frame 32 even when a fire occurs on the indoor side. Since it is not directly exposed to, it is difficult to deform. However, in consideration of the possibility of deformation on the indoor side, it is also possible to configure a slip-off preventing member having a substantially U-shaped cross section.

  In this embodiment, as shown in FIG. 11 (A), the detachment prevention member 82 is configured by a substantially L-shaped long metal fitting, and is opposed to the outdoor side surface 20a of the glass 20. It is set as the structure which has the surface part 82a and the fixed surface part 82b for screw-fixing to the expectation surface part 22c of a collar (vertical rod 22).

  Further, as shown in FIGS. 10A and 11B, dents 301 and 302 are provided around the outside of the building opening, and the dents 301 and 302 have a vertical frame and a horizontal frame. The indoor-side surface (the mounting piece 332 in the vertical frame 32 and the mounting piece 333 in the vertical frame 33) of the indoor-side finding surface portion of the frame body assembled by the frame is placed in contact with the wall surfaces 303 and 304 of the recesses. As a result, the frame body is concealed by the indoor side opening component members (window frame frames 76 and 77 and resin angles 72 and 73) when viewed from the indoor side of the building opening, and is arranged to be openable and closable on the frame body. A warp preventing metal fitting 92 that protrudes outward in the finding direction N is provided on the saddle (vertical saddle 22) of the shoji 2 to be operated, and a frame body that is arranged outside in the finding direction N of the saddle (vertical saddle 22) ( The vertical frame 32) protrudes inward in the direction of finding N and warps prevention metal fittings 10 when the warp prevention metal fitting 93 opposite to 2 is provided, and the vertical rod 22 is displaced outward in the direction of finding N due to the thermal expansion of the members constituting the shoji 2 at the time of fire as shown in FIG. 10 (B). The warp preventing metal fittings 92 and 93 are in contact with each other.

  Thereby, the warp of the vertical rod 22 at the time of a fire is suppressed, and it is prevented that it ignites by the increase in the clearance gap between the vertical frame 32 and the vertical rod 22, Moreover, the disengagement of the shoji 2 by suppression of the warp as the whole shoji 2 Prevention and damage prevention of the glass 20 are achieved.

  Further, as shown in FIG. 9B, the warp preventing metal fittings 92 and 93 are provided at a plurality of locations in the vertical direction (longitudinal direction of the vertical rod 22 and the vertical frame 32).

  Thereby, the curvature of the vertical rod 22 and the curvature as the whole shoji 2 can be suppressed in several places of an up-down direction.

  Further, it is assumed that the warp preventing metal fitting 93 provided in the vertical frame 32 is provided outside the warp preventing metal fitting 92 provided in the vertical rod 22.

  Thereby, at the time of a fire, the movement to the outdoor direction of the curvature prevention metal fitting 92 provided in the vertical rod 22 is controlled by the curvature prevention metal fitting 93 provided in the vertical frame 32, and it can suppress that the shoji 2 comes off to the outdoor direction.

  In addition, as shown in FIGS. 10A and 11B, the warp preventing metal fittings 92 and 93 are inclined so that the indoor side is arranged more outward in the finding direction N than the outdoor side in plan view. The abutting surfaces 92a and 93a are formed, and the abutting surfaces 92a and 93a are in contact with each other.

  Thereby, as shown to FIG. 10 (B), when the contact surfaces 92a and 93a contact in surface at the time of a fire, the contact surface can be ensured widely. Further, by setting the inclination, it is possible to prevent the warp preventing metal fittings 92 and 93 from interfering with each other when the shoji 2 is opened and closed, thereby preventing the opening and closing.

  As shown in FIGS. 6 and 10A, the warpage preventing metal fitting 92 has a mounting surface portion 92c fixed to the prospective surface portion 22c of the vertical rod 22 by a screw 92b, and the warpage preventing metal fitting 93 has an attachment surface portion. 93c is fixed to the expected surface portion 32d of the vertical frame 32 by screws 93b.

  The present invention can be applied to a sliding window having a hidden fence structure in addition to decorative windows such as a vertical sliding window, a horizontal sliding window, a raising / lowering window, a FIX window, and a louver window.

DESCRIPTION OF SYMBOLS 1 Vertical sliding window 2 Shoji 20 Glass 21 Upper reed 22 Vertical reed 23 Vertical reed 24 Lower reed 30 Window frame 31 Upper frame 32 Vertical frame 33 Vertical frame 34 Lower frame 51e Refractory material 60 Opening / closing operation mechanism 61 Drive transmission mechanism 81 Detachment member 92 Warpage prevention bracket 93 Warpage prevention bracket 96 Closed lock mechanism M Expected direction N Finding direction

Claims (3)

A recess is provided around the outside of the building opening,
The indoor side surface of the indoor side finding surface part of the frame body assembled by the vertical frame and the horizontal frame in the recessed part,
By abutting against the wall surface of the recess,
The frame body is concealed by a room-side opening component as viewed from the indoor side of the building opening,
A stile constituting the frame of shoji which is openably disposed on the frame, the frame is made of metal,
The ridge is a structure concealed by a room-side opening component as seen from the room side of the building opening.
sash. The shoji is configured to be openable and closable, an open / close operation mechanism for opening and closing the shoji, a friction lock mechanism for maintaining the shoji open, and a state for maintaining the shoji closed A part or all of the resin parts for constituting an opening / closing related mechanism such as a closing lock mechanism,
Furthermore, the fire prevention member
With a configuration that can be accommodated within the range of the thickness direction of the frame ,
The sash of Claim 1 characterized by the above-mentioned.   Between the frame and the heel, a refractory material is provided that expands by being heated and foamed during a fire, and fills a gap between the frame and the heel.
  The sash of Claim 1 characterized by the above-mentioned.

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