JP7299814B2 - Frame material for window frames - Google Patents

Description

The present invention relates to a frame member for a window frame that constitutes a window frame.

A window device is provided at an opening of a building skeleton for the purpose of daylighting, ventilation, and the like. The frame material of the window frame that constitutes such a window device includes drainage holes for draining dew condensation water and for introducing outside air into the room, as described in Japanese Patent Application Laid-Open No. 2018-76703, for example. A through hole such as an air introduction hole may be provided.

JP 2018-76703 A

If through holes such as drainage holes are provided in the frame materials that make up the window frame, flames, hot air, etc., may enter or exit the building through the through holes in the event of a fire. have a nature. In addition, combustible gas generated by dissolving resin parts attached to the window device may flow in or out through the through holes. Combustible gas has the property of being easily ignited, so it can cause fire to spread or spread.

Therefore, it is conceivable to use a heating foam material that foams (expands) when heated to block the passage of fire, hot air, etc. in the frame material constituting the window frame in the event of a fire. Among the parts that become passages for flames, hot air, etc., through holes such as drainage holes have smaller openings (opening area) than other parts. It is possible to efficiently block the passage of flames, hot air, etc.

For this purpose, the heating foam material is arranged so as to face (face to face) the through hole, and the mounting position and direction of the heating foam material are adjusted so that the through hole is located on the front side with respect to the foaming direction of the heating foam material. It is conceivable to regulate However, depending on the formation position of the through hole, it is difficult to dispose the heated foam material so as to face the through hole. In particular, when it is considered to fix the heat foaming material to the frame material via the mounting bracket in order to prevent the heat foaming material from falling off from the mounting position before it foams due to moisture such as dew condensation water. , it becomes difficult to arrange in a narrow space, and it becomes more difficult to arrange the heating foam so as to face the through hole.

SUMMARY OF THE INVENTION The present invention is made to solve the above-mentioned problems. To provide a frame member for a window frame which can effectively prevent such a problem.

A frame material for a window frame according to an aspect of the present invention constitutes a window frame, has a glass groove into which an end of a glass panel is inserted, and a center axis facing an indoor/outdoor direction, and comprises the glass and a through hole opening into the groove.
Inside the glass groove, a plate-shaped heating foam material that expands at least in the plate thickness direction by heating is fixed to the bottom of the glass groove, and the plate thickness direction is aligned with the longitudinal direction of the glass groove. and a fitting that supports the heating foam material is arranged in the vicinity of the through-hole.
The mounting bracket is made of a metal plate and has a crank shape. a support plate portion that is bent at a substantially right angle from an end portion near the through hole and supports the heated foam material on a surface near the through hole with respect to the longitudinal direction of the glass groove; and a regulating plate portion that is bent from the end of the glass groove farther from the bottom of the glass groove in the longitudinal direction of the glass groove to the side opposite to the fixed plate portion and that regulates the foaming direction of the heating and foaming material.

In the frame member for a window frame according to an aspect of the present invention, the support plate portion has a pair of holding pieces for holding both indoor-outdoor direction end portions of the heated foam material at both indoor-outdoor direction end portions. With the holding piece, the end portion of the heating foam material in the width direction can be pressed (fixed by caulking) in the plate thickness direction.

In the frame material for a window frame according to one aspect of the present invention, the regulating plate portion can be arranged at a position overlapping (matching) the through hole in the longitudinal direction of the glass groove.

In the frame material for a window frame according to one aspect of the present invention, the heating foam material can be arranged at a position slightly deviated from the through hole in the longitudinal direction of the glass groove.

In the frame material for a window frame according to one aspect of the present invention, the through holes can be opened at the ends in the longitudinal direction of the frame material for the window frame.

In the frame material for a window frame according to one aspect of the present invention, the through holes may be drainage holes for discharging condensed water to the outside. Alternatively, the through hole can be an air introduction hole for passing air.

According to the frame material for a window frame of the present invention, even when the heated foam material cannot be arranged so as to face the through holes, it is possible to effectively prevent the through holes from becoming passages for fire, hot air, and the like.

FIG. 1 is a front view of a window device according to a first embodiment, viewed from the indoor side. FIG. 2 is a vertical cross-sectional view taken along line AA of FIG. FIG. 3 is a cross-sectional view taken along line BB of FIG. FIG. 4 is a view in the direction of arrow C in FIG. 1, omitting the glass panel and the drainage device in order to explain the formation positions of the drainage holes. FIG. 5 is a bottom enlarged view of FIG. 2 with the glass panel omitted. 6 is a partially enlarged view of FIG. 5. FIG. FIG. 7 is a longitudinal sectional view taken along line DD of FIG. FIG. 8 is a view showing the drain valve taken out, (A) is a front view, (B) is a plan view, (C) is a bottom view, and (D) is a right side view. . FIG. 9 is a diagram for explaining the operation of the drain valve, (A) shows the state in which the first drainage channel is open, and (B) shows the state in which the first drainage channel is closed. there is FIG. 10 is a view showing the drainage guide taken out, (A) is a front view, (B) is a plan view, (C) is a bottom view, and (D) is a right side view. . 11A and 11B are views showing the sealing material taken out, where (A) is a front view, (B) is a plan view, and (C) is a right side view. FIG. 12 is a view corresponding to FIG. 4 showing a state in which the heating foam material is fixed to the lower frame via the mounting bracket. 13 is a cross-sectional view taken along line EE of FIG. 12. FIG. 14A and 14B are views showing the mounting bracket, in which (A) is a front view, (B) is a plan view, (C) is a bottom view, and (D) is a right side view. . 15A and 15B are bottom views for explaining the supporting structure of the heating foam material with respect to the mounting bracket, where (A) shows the state where the heating foam material is inserted into the holding groove, and (B) shows the holding piece. It shows a state of caulking deformation.

[First example of embodiment]
A first example of the embodiment will be described with reference to FIGS. 1 to 15. FIG.

This example shows a case where the present invention is applied to a FIX window (fixed window). A window device 1 of this example includes a rectangular window frame 2 arranged at an opening of a building, and a glass panel (window glass) 3 fixed to the inside of the window frame 2 so as not to move.
In this specification, the term "inner side" in terms of the in-plane direction refers to the central side of the window frame 2 in the width direction, and the term "outer side" in terms of the in-plane direction refers to the outer side of the window frame 2 in the width direction.

[Overall structure of window frame]
As shown in FIG. 1, the window frame 2 includes an upper frame 4 that is arranged in the in-plane direction (the width direction and the horizontal direction of the window frame 2) and constitutes the upper side, and an in-plane direction that constitutes the lower side. It is provided with a lower frame 5 and a pair of vertical frames 6 arranged in the vertical direction and forming left and right (both sides in the in-plane direction) vertical sides. Then, the window frame 2 is configured in a rectangular frame shape by connecting both the in-plane direction end portions of the upper frame 4 and the lower frame 5 and the vertical direction end portions of each of the vertical frames 6 using tapping screws or the like. are doing. The window frame 2 is an aluminum-resin composite sash, and the upper frame 4, lower frame 5, and pair of vertical frames 6 each comprise an aluminum alloy frame body (outer frame) and a synthetic resin frame cover (inner frame). ) and

《Upper frame》
As shown in FIG. 2, the upper frame 4 consists of an upper frame body 7 made of aluminum alloy and an upper frame cover 8 made of synthetic resin. The upper frame main body 7 includes an upper frame substrate portion 9 extending in the in-plane direction, an upper frame outdoor side plate portion 10 hanging down from the outdoor end portion of the upper frame substrate portion 9, and a roof of the upper frame substrate portion 9. It has an upper frame intermediate plate portion 11 that hangs down from an intermediate portion in the inward/outward direction (out-of-plane direction).

The upper frame cover 8 is attached to the upper frame main body 7 by snap fitting so as to cover the indoor half of the upper frame base plate portion 9 (the indoor side portion of the upper frame intermediate plate portion 11) from below. Specifically, a plurality of upper frame cover engaging pieces 12 provided on the upper portion of the upper frame cover 8 are engaged with a plurality of upper frame main body engaging pieces 13 provided on the upper frame main body 7, respectively. , the upper frame cover 8 is attached to the upper frame main body 7. - 特許庁

《Lower frame》
As shown in FIGS. 2 and 5, the lower frame 5 consists of a lower frame body 14 made of aluminum alloy and a lower frame cover 15 made of synthetic resin. The lower frame main body 14 includes a lower frame base plate portion 16 extending in the in-plane direction, a lower frame outdoor side plate portion 17 erected at the outdoor end portion of the lower frame base plate portion 16, and the lower frame base plate portion 16. and a lower frame indoor side plate portion 19 standing on the indoor side end portion of the lower frame base plate portion 16 . A glass groove 20a for holding the lower end of the glass panel 3 is formed in a portion surrounded on three sides by the lower frame base plate portion 16, the lower frame outdoor side plate portion 17, and the lower frame intermediate plate portion 18. .

The lower frame main body 14 has an indoor-side frame body 21 on the indoor side of the glass groove 20a. The indoor-side frame 21 has a rectangular frame portion 22 having a rectangular cross-sectional shape on the outdoor-side half. Of the four sides forming the rectangular frame portion 22, the lower side is formed by the intermediate portion of the lower frame base plate portion 16, and the vertical side on the outdoor side is formed by the lower half portion of the lower frame intermediate plate portion 18. . Of the remaining two sides constituting the rectangular frame portion 22, the upper side is formed by the upper plate portion 23 substantially parallel to the lower frame base plate portion 16, and the vertical side on the indoor side is parallel to the lower frame intermediate plate portion 18. It is composed of a side plate portion 24 . Inside the rectangular frame portion 22 having such a configuration, a lower space 25 surrounded by the rectangular frame portion 22 on four sides in the vertical direction and the indoor/outdoor direction is provided.

The lower frame cover 15 is attached to the indoor frame 21 so as to cover the indoor frame 21 of the lower frame main body 14 from above. The lower frame cover 15 includes a top plate portion 26 extending in the in-plane direction, a pair of leg plate portions 27a and 27b hanging from the lower surface of the top plate portion 26 and arranged parallel to each other, and the leg plate portion 27a. , 27b in the indoor-outdoor direction. A drain groove 94 is provided on the upper surface of the top plate 26 at an intermediate portion in the indoor/outdoor direction to prevent condensation water from leaking indoors.

In the lower frame cover 15, the lower surface of the outdoor end of the top plate portion 26 is brought into contact with the upper end surface of the lower frame intermediate plate portion 18, and the lower end portion of the leg plate portion 27a on the outdoor side constitutes the rectangular frame portion 22. Attached to the indoor side frame 21 by snap fitting in a state in which the upper end of the side plate portion 24 is abutted and the lower end of the indoor side leg plate portion 27 b is abutted to the upper end of the lower frame indoor side plate portion 19 . It is Specifically, the lower frame cover engaging piece 29a provided on the lower surface of the outdoor end of the top plate portion 26 is attached to the lower frame main body engaging piece 30a provided on the upper end portion of the lower frame intermediate plate portion 18. A pair of lower frame cover locking pieces 29b, 29c provided on the lower surface of the connecting plate portion 28 and lower frame main body locking pieces provided on the side plate portion 24 and the lower frame indoor side plate portion 19, respectively. A pair of lower frame cover projections 31a and 31b, which are engaged with 30b and 30c and provided at both ends of the lower surface of the connecting plate portion 28 in the indoor/outdoor direction, are attached to the side plate portion 24 and the lower frame indoor side plate portion 19. The lower frame cover 15 is attached to the indoor frame 21 by being press-fitted between the respective upper end portions.

With the lower frame cover 15 attached to the indoor frame 21, an upper space 32 is formed (defined) between the lower surface of the top plate portion 26 and the upper surface of the upper plate portion 23 forming the rectangular frame portion 22. be done. The upper space 32 has a substantially rectangular cross-sectional shape and is arranged above the lower space 25 with the upper plate portion 23 interposed therebetween. Therefore, the upper plate portion 23 vertically partitions the upper space 32 and the lower space 25 . The width dimension in the indoor/outdoor direction of the upper space 32 is the same as the width dimension in the indoor/outdoor direction of the lower space 25 , but the height dimension of the upper space 32 is larger than the height dimension of the lower space 25 . As a result, a large volume (capacity) of the upper space 32 is ensured, and the heat insulating performance is improved.

《Vertical frame》
As shown in FIG. 3, each of the left and right vertical frames 6 consists of a vertical frame main body 33 made of aluminum alloy and a vertical frame cover 34 made of synthetic resin. The vertical frame main body 33 includes a vertical frame substrate portion 35 extending in the vertical direction, a vertical frame outdoor side plate portion 36 bent inward in the in-plane direction from the outdoor side end portion of the vertical frame substrate portion 35, and a vertical It has a vertical frame intermediate plate portion 37 extending inward in the in-plane direction from an intermediate portion in the indoor/outdoor direction of the frame substrate portion 35 .

The vertical frame cover 34 is attached to the vertical frame main body 33 by snap fitting so as to cover the indoor half of the vertical frame base plate portion 35 (the indoor side portion of the vertical frame intermediate plate portion 37) from the inside in the in-plane direction. there is Specifically, a plurality of vertical frame cover engaging pieces 38 provided on the outer side in the in-plane direction of the vertical frame cover 34 are engaged with a plurality of vertical frame main body engaging pieces 39 provided on the vertical frame main body 33 . By stopping, the vertical frame cover 34 is attached to the vertical frame main body 33 .

[Glass panel]
As shown in FIGS. 2 and 3, the glass panel 3 is a multi-layered glass made by stacking two glass plates 40a and 40b, and is arranged inside the outdoor side portion of the window frame 2. As shown in FIG. In the illustrated example, the glass plate 40a arranged on the outdoor side is wire glass with excellent fireproof performance. Since the window device 1 of this example is a FIX window, the glass panel 3 is immovably fixed inside the window frame 2 .

The glass plates 40a and 40b are arranged in parallel with each other with a predetermined space therebetween with spacers 41 interposed therebetween, forming an intermediate layer 42 between the glass plates 40a and 40b. The intermediate layer 42 is filled with an inert gas such as sulfur hexafluoride gas, argon gas, or krypton gas in order to improve the heat insulation performance. The periphery of the intermediate layer 42 (surrounding the spacer 41) is sealed with a sealing material 43 over the entire periphery.

In this example, in order to attach and detach the glass panel 3 from the indoor side, an upper rim 44 made of an aluminum alloy is engaged with the lower end portion of the upper frame intermediate plate portion 11 that constitutes the upper frame main body 7. Vertical pushing edges 45 made of an aluminum alloy are engaged with the in-plane direction inner end portions of the vertical frame intermediate plate portions 37 constituting the left and right vertical frame main bodies 33, respectively. As a result, a glass groove for holding the upper end of the glass panel 3 is formed in a portion surrounded on three sides by the upper frame base plate portion 9, the upper frame outdoor side plate portion 10, and the upper rim 44 (upper frame intermediate plate portion 11). 20b, and the left and right ends of the glass panel 3 are held in a portion surrounded on three sides by the vertical frame substrate portion 35, the vertical frame outdoor side plate portion 36, and the vertical frame 45 (vertical frame intermediate plate portion 37). A glass groove 20c is formed for each.

A synthetic resin first cover 46 for the upper rim is fixed to the upper rim 44 by bolts 47 so as to cover the upper rim 44 from the indoor side. A second cover 48 for upper batting edges made of synthetic resin is attached to the first cover 46 for upper batting edges by snap fitting so as to cover the top batting edge 44 and the first cover for upper batting edges 46 from below. A first cover 49 made of synthetic resin for vertical ribs is fixed to the vertical ribs 45 with bolts 50 so as to cover the vertical ribs 45 from the indoor side. Further, a synthetic resin second cover 51 for vertical ribs is attached to the first cover 49 for vertical ribs by snap fitting so as to cover the vertical ribs 45 and the first cover 49 for vertical ribs from the inside in the in-plane direction. .

The lower end of the glass panel 3 is mounted on setting blocks 52 arranged on both sides of the bottom of the glass groove 20a provided in the lower frame 5 in the in-plane direction. In addition, the respective ends (upper end, lower end, and left and right ends) of the glass panel 3 are sandwiched from both sides in the indoor-outdoor direction by the outdoor-side backup material 53a and the indoor-side backup material 53b made of an elastic material. . The inner peripheral surfaces of the outdoor side backup material 53a and the indoor side backup material 53b are respectively covered with an outdoor side sealing material 54a and an indoor side sealing material 54b made of resin. held. The glass panel 3 can be replaced by removing the indoor sealing material 54b, the indoor backup material 53b, the outdoor sealing material 54a, and the outdoor backup material 53a, and removing the upper rim 44 and the left and right vertical rims 45, respectively. , can be done from the indoor side.

[Drainage structure of lower frame]
In this example, as shown in FIG. 4, in order to discharge the dew condensation water adhering to the indoor side surface of the glass panel 3 (glass plate 40b) to the outside, the lower frame 5 is provided with a first drain hole 55 to a fourth drain hole. 58 four kinds of drainage holes (8 in total) are formed, and a drainage device 59 is attached.

[Drain hole]
The first drain holes 55 are arranged on both sides in the in-plane direction of the top plate portion 26 (bottom portion of the drain groove 94) that constitutes the lower frame cover 15, and penetrate the top plate portion 26 in the vertical direction. there is The second drain hole 56 is arranged in a portion of the upper plate portion 23 forming the upper side of the rectangular frame portion 22 located below the first drain hole 55 (at the same position in the in-plane direction). It penetrates through the portion 23 in the vertical direction. The third drain holes 57 are arranged at both ends in the in-plane direction of the lower frame intermediate plate portion 18 that constitutes the vertical side of the rectangular frame portion 22 on the outdoor side. passes through. The fourth drain holes 58 are arranged on both outer sides in the in-plane direction of the outdoor portion of the lower frame substrate portion 16 forming the bottom portion of the glass groove 20a, and penetrate the lower frame substrate portion 16 in the vertical direction. ing. In this example, the condensed water that has dripped or flowed down from the indoor side surface of the glass plate 40b onto the upper surface of the top plate portion 26 of the lower frame cover 15 is drained from the first drain hole 55→second drain hole 56→third drain hole 57→third drain hole 57. 4 drain holes 58 in order so that it can finally be discharged to the outside (outdoors).

In the illustrated example, the first drain hole 55, the second drain hole 56, and the fourth drain hole 58 are all oblong holes elongated in the in-plane direction, and the third drain hole 57 is a rectangular hole. is a hole. However, the shape of the first drain hole 55 to the fourth drain hole 58 is not limited to the illustrated shape, and other shapes such as a circular shape and an elliptical shape can be adopted.

[Drainage device]
The drainage device 59 has a function of suppressing clogging of foreign matter, securing the amount of condensed water to be discharged, and preventing water and outside air from entering the upper space 32 . As shown in FIGS. 5 to 7, the drain device 59 is attached to the first drain hole 55, and includes a drain valve 60 whose lower part is arranged in the upper space 32, and a drain guide 61 which is arranged in the upper space 32. and a sealing material 62 . For this reason, the window device 1 of this example includes a total of two drainage devices 59 each including a drainage valve 60, a drainage guide 61, and a sealing member 62, as shown in FIG.

《Drain valve》
As shown in FIG. 8, the drain valve 60 has a drain valve main body 63 and a roof body 64 covering the drain valve main body 63 from above. Equipped with intrusion prevention function.

The drain valve main body 63 has a tubular portion 65 and a swing valve 66 arranged inside the tubular portion 65 . The tubular portion 65 is made of synthetic resin, has an elongated cylindrical shape, and has a first drainage channel 67 inside which communicates in the vertical direction. The cylindrical portion 65 is press-fitted into the first drain hole 55 from above, and the lower portion of the cylindrical portion 65 enters the upper space 32 .

The cylindrical portion 65 has rectangular thin-plate-shaped outward flange portions 68 extending horizontally on both sides in the longitudinal direction (in-plane direction) of the outer peripheral surface of the upper end portion. The outward flange portion 68 abuts on the top surface of the top plate portion 26 of the lower frame cover 15 when the cylindrical portion 65 is press-fitted into the first drain hole 55 from above. Aim for vertical positioning. The cylindrical portion 65 has an inwardly extending flange portion 69 extending horizontally on the inner peripheral surface of the upper end portion. The radially inner portion of the upper surface of the inward flange portion 69 is inclined downward as it goes radially inward. The tubular portion 65 has a pair of support holes 70 for swingably pivoting the swing valve 66 on one longitudinal side of the vertical middle portion. Further, the tubular portion 65 has a pair of mounting protrusions 71 for mounting the roof body 64 on both sides in the longitudinal direction of the upper end surface.

The swing valve 66 is arranged inside the tubular portion 65 and supported so as to be vertically swingable with respect to the tubular portion 65 . This allows the swing valve 66 to open and close the first drainage channel 67 provided in the cylindrical portion 65 . The swing valve 66 is made of synthetic resin and includes a valve body 72 , a pivot shaft portion 73 and a stopper piece 74 .

The valve main body 72 has a rectangular thin plate shape, and has a size and shape that can completely close the upper end opening of the first drainage channel 67 from below. The pivot shaft portion 73 is provided at one longitudinal end portion of the valve body 72 and is rotatably supported (inserted) in a support hole 70 provided in the cylindrical portion 65 . The stopper piece 74 is provided at one end in the longitudinal direction of the valve body 72, and when the swing valve 66 is opened, the stopper piece 74 is engaged with the lower surface of the inward flange portion 69, and the swing valve 66 is further opened. Prevent it from becoming large (for example, 10 to 20 degrees or more).

The roof body 64 is made of synthetic resin and is detachably supported on the tubular portion 65 . Specifically, the roof body 64 engages the engagement receiving portions 75 provided on both sides in the longitudinal direction of the lower surface with the attachment protrusions 71 provided on the drain valve body 63, thereby is detachably supported with respect to the The roof body 64 is arranged above the first drainage channel 67 and covers the upper end opening of the first drainage channel 67 .

In the normal state, as shown in FIG. 9A, the drain valve 60 has the swing valve 66 swinging downward due to the action of gravity, and the first drain passage 67 is opened. Therefore, the condensed water dripping or flowing down on the upper surface of the top plate portion 26 can be guided downward through the first drainage channel 67 . On the other hand, when the wind blows against the lower surface of the swing valve 66, the swing valve 66 swings upward to close the upper end opening of the first drainage channel 67, as shown in FIG. 9B. Therefore, it is possible to prevent outside air and water (such as rainwater) from entering (backflowing) indoors through the first drainage channel 67 . In addition, since the roof body 64 covers the upper end opening of the first drainage channel 67, clogging of the first drainage channel 67 with foreign matter can be prevented.

《Drainage guide》
The drain guide 61 is for discharging the condensed water guided downward from the drain valve 60 to the lower space 25 without causing the water to leak into the upper space 32 . As shown in FIG. 10, the drainage guide 61 is made of a synthetic resin, has a hollow cylindrical shape, and has a second drainage channel 76 inside which communicates in the vertical direction. The drain guide 61 is connected without gaps between a guide body 77 connected to the lower part of the cylindrical part 65 constituting the drain valve 60 and the second drain hole 56 formed in the upper plate part 23 of the rectangular frame part 22 without gaps. It integrally has an insertion tube portion 78 to be inserted.

The guide body 77 has an oblong cylindrical shape and is entirely arranged in the upper space 32 . The guide body 77 has projecting plate portions 79a and 79b at its upper and lower ends, respectively. An upper end surface and a lower end surface of the guide body 77 are flat surfaces. The upper end surface of the protruding plate portion 79 a forms part of the upper end surface of the guide body 77 , and the lower end surface of the protruding plate portion 79 b forms part of the lower end surface of the guide body 77 . The lower end surface of the guide body 77 serves as a bearing surface 80 that fully contacts the upper surface of the upper plate portion 23 of the rectangular frame portion 22 when the insertion cylinder portion 78 is inserted (press-fitted) into the second drain hole 56 . In this example, by providing the protruding plate portion 79b at the lower end portion of the guide body 77, a large area of the seat surface 80 is secured and the posture of the guide body 77 is stabilized.

The guide body 77 has a rectangular opening at its upper end that is larger than the lower portion of the cylindrical portion 65 . Therefore, the upper end of the guide body 77 and the lower part of the tubular portion 65 are connected with a gap by simply inserting the lower portion of the tubular portion 65 inside the upper end portion of the guide body 77 . be. In other words, the lower portion of the cylindrical portion 65 can be loosely inserted into the second drainage channel 76 of the guide body 77 from above. Therefore, in this example, as shown in FIG. 6, a sealing member 62 is used to close the gap between the inner peripheral surface of the upper end portion of the guide body 77 and the outer peripheral surface of the lower portion of the cylindrical portion 65 .

《Sealing material》
The sealing member 62 is made of an elastic material such as rubber, and has airtightness and watertightness. As the material of the sealing member 62, for example, synthetic rubber (EPT sponge) obtained by polymerizing ethylene and propylene with a small amount of diene can be used. As shown in FIG. 11, the sealing member 62 is formed in the shape of a rectangular plate, and has an oval insertion hole in the center into which the lower portion of the cylindrical portion 65 constituting the drain valve 60 can be inserted without gap. 81.

The sealing member 62 is arranged to surround the lower portion of the tubular portion 65 by inserting the lower portion of the tubular portion 65 into the insertion hole 81. As shown in FIG. It is elastically sandwiched between the upper end surface of the main body 77 ) and the lower surface of the top plate portion 26 of the lower frame cover 15 . As a result, the upper end portion of the guide body 77 and the lower portion of the cylindrical portion 65 inserted inside the upper end portion of the guide body 77 are connected without a gap. The sealing material 62 is attached in advance to the lower surface of the top plate portion 26 with an adhesive tape or the like. It can be clamped between the upper end surface. If the upper end portion of the drainage guide and the lower portion of the cylindrical portion are connected directly without a gap, for example, by press-fit connection or screw connection, the sealing member can be omitted.

The insertion tube portion 78 is provided at the lower end portion of the drainage guide 61 and has an elongated cylindrical shape. The insertion cylinder portion 78 is press-fitted from above into the second drain hole 56 formed in the upper plate portion 23 of the rectangular frame portion 22 . Therefore, the insertion tube portion 78 is inserted into the second drain hole 56 without any gap. In this example, in order to completely seal the space between the outer peripheral surface of the insertion tube portion 78 and the inner peripheral surface of the second drain hole 56, the outer peripheral surface of the insertion tube portion 78 and the inner peripheral surface of the second drain hole 56 are A wet sealing material is provided between them.

According to the drainage structure of this example, the condensation water dripping or flowing down from the indoor side surface of the glass panel 3 to the upper surface (drainage groove 94) of the top plate portion 26 of the lower frame cover 15 is From between the upper surface of the main body 63 and the lower surface of the roof body 64 , the water enters the first drainage channel 67 provided inside the drain valve body 63 and is guided downward through the first drainage channel 67 , and then the drainage guide 61 . is discharged to the lower space 25 through the second drainage channel 76 of the . Then, the condensed water discharged into the lower space 25 is discharged outside (outdoor ).

[Fire prevention structure of lower frame]
The lower frame 5 has first to fourth drainage holes 55 to 58 for discharging the condensed water to the outside. Therefore, if fire prevention measures are not taken, flames, hot air, etc. will enter the building through the first drain hole 55 to the fourth drain hole 58, or go out to the outside of the building. there is a possibility. Therefore, in the window device 1 of this example, in order to prevent the third drain hole 57 from becoming a passage for fire, hot air, etc., as shown in FIG. A heating foam material 82 and a mounting bracket 83 are arranged inside. Therefore, in this example, the third drain hole 57 corresponds to the through hole described in the claims.

《Heating foam material》
The heating foam material 82 is a plate-like (band-like, sheet-like) with a thickness of about several millimeters, expands (expands) at least in the plate thickness direction by heating, and has fire resistance. The company's product name "Fi-Block" can be used. "Fi-Block" has a foaming start temperature of about 200° C., and the plate thickness increases from about 5 to 40 times depending on the type (butyl type, epoxy type, etc.).

Originally, in order to efficiently block the third drain hole 57 with the heated foam material, it is desirable to arrange the heated foam material so as to face (face to face) the third drain hole 57 . Specifically, the heating and foaming material is arranged in the lower space 25, and the heating and foaming material is opposed to the third drain hole 57 from the indoor side, or the heating and foaming material is arranged inside the glass groove 20a, It is desirable to have the heated foam material face the third drain hole 57 from the outside. However, since the lower space 25 is set to have a small height dimension in order to ensure heat insulating performance, it is difficult to fix the heated foam material to the lower space 25 using a mounting bracket. If the heat foaming material is attached to the lower space 25 with an adhesive tape without using a mounting bracket, the heat foaming material can be placed in the lower space 25. may fall off. Further, the third drain holes 57 are provided at both ends of the lower frame 5 (lower frame intermediate plate portion 18) in the in-plane direction, and open at both ends in the in-plane direction of the glass groove 20a. It is difficult to allow the heated foaming material to face the third drain holes 57 with a sufficient width while ensuring the drainage performance of the third drain holes 57 .

Therefore, in this example, the heating foam material 82 is arranged inside the glass groove 20a and in the vicinity of the third drain hole 57 (inside in the in-plane direction), and the plate thickness direction of the heating foam material 82 is set to the third It coincides with the in-plane direction (longitudinal direction of the glass groove 20a) perpendicular to the central axis direction (indoor/outdoor direction) of the drain hole 57. As shown in FIG. As a result, when a fire occurs, the outdoor space 84 existing in the vicinity of the third drain hole 57 on the outdoor side is filled (filled) with the heating foam material 82 . In this example, the heating foam material 82 is arranged at a position slightly deviated from the third drain hole 57 inward in the in-plane direction.

As shown in FIG. 14, the mounting bracket 83 is made of a corrosion-resistant and heat-resistant metal plate such as a stainless steel plate, and has a crank shape. 87.

The fixed plate portion 85 has a rectangular plate shape and is mechanically fixed to the lower frame substrate portion 16 forming the bottom portion of the glass groove 20a. The fixed plate portion 85 has a mounting hole 88 penetrating vertically. In the illustrated example, the mounting hole 88 is an elongated hole extending in the indoor-outdoor direction, but may be a round hole. While the fixing plate portion 85 is placed on the lower frame base plate portion 16, the mounting screw 89 inserted through the mounting hole 88 from above is screwed into the screw hole 90 formed in the lower frame base plate portion 16 and further tightened. , and is fixed to the lower frame base plate portion 16 by screwing. However, other mechanical fixing means such as caulking or riveting may be employed instead of screw fixing.

The support plate portion 86 has a rectangular plate shape, and is bent at a substantially right angle from the end portion of the fixed plate portion 85 on the outside in the in-plane direction (the side near the third drain hole 57), and the heating foam material 82 is formed on the outside surface in the in-plane direction. Support. Therefore, the heating foam material 82 and the support plate portion 86 are laminated in the in-plane direction. The support plate portion 86 is arranged (upright arrangement) substantially parallel to the vertical frame base plate portion 35 constituting the vertical frame 6 and positioned slightly inside the third drain hole 57 in the in-plane direction. The vertical dimension (height dimension) of the support plate portion 86 is substantially the same as the vertical dimension of the heating foam material 82 and the third drain holes 57 . The width dimension (indoor/outdoor dimension) of the support plate portion 86 is substantially the same as the width dimension of the heating foam material 82, and is about ⅓ of the width dimension of the glass groove 20a.

In order to support the heating foam material 82, the support plate portion 86 has a pair of holding pieces each substantially U-shaped (or U-shaped) at both ends in the width direction (indoor/outdoor direction) of the middle portion in the vertical direction. 91a and 91b. The pair of holding pieces 91a and 91b protrude from the support plate portion 86 on both sides in the width direction and are positioned outside the support plate portion 86 in the in-plane direction. A holding groove 92 capable of supporting the heating foam material 82 is formed in a portion surrounded by the pair of holding pieces 91 a and 91 b and the support plate portion 86 . As shown in FIG. 15A, in a state where the heating foam material 82 is inserted inside the holding groove 92, the heating foam material 82 is substantially unable to move in the in-plane direction and the indoor/outdoor direction. .

In this example, even when the heating foam material 82 is supported by the mounting bracket 83 (sub-assembled state) and transported, the heating foaming material 82 is prevented from falling off from the mounting bracket 83 . is adhered to the support plate portion 86 with an adhesive tape, and as shown in FIG. The end of the plate is pressed down in the plate thickness direction (fixed by caulking).

The regulating plate portion 87 is arranged to be bent at a substantially right angle from the upper end portion of the support plate portion 86 to the outside in the in-plane direction (the side opposite to the fixing plate portion 85 in the in-plane direction). Therefore, the regulation plate portion 87 is arranged substantially parallel to the lower frame base plate portion 16 (and the fixed plate portion 85). The regulating plate portion 87 has a substantially T-shape in a plan view, and has a wide portion 93 larger in width (indoor/outdoor dimensions) than the base half in the front half (outer half in the in-plane direction). have. The width dimension of the wide portion 93 is substantially the same as the interval between the pair of holding pieces 91a and 91b. The in-plane direction outer end surface of the wide portion 93 faces or abuts the in-plane direction inner side surface of the vertical frame base plate portion 35 constituting the vertical frame 6 with a small gap therebetween. The indoor side surface of 93 faces or abuts the portion of the outdoor side surface of the lower frame intermediate plate portion 18 located above the third drain hole 57 with a small gap therebetween. The regulation plate portion 87 is arranged at a position where most of it overlaps (aligns with) the third drain hole 57 in the in-plane direction.

In this example, of the outdoor space 84 existing in the vicinity of the outdoor side of the third drain hole 57, the inner side in the in-plane direction is closed by the support plate portion 86 (the heating foam material 82), and the upper side is covered by the regulating plate portion. It is blocked by 87. Therefore, the outdoor space 84 is a narrow space that is substantially closed in the vertical direction and the in-plane direction.

The fixing position of the mounting bracket 83 can be appropriately changed according to the foaming capacity (amount of foaming) of the heating foam material 82 to be used. It is preferable to arrange the heating foam material 82 so as to be as close as possible to the lower frame intermediate plate portion 18 in the indoor/outdoor direction. In this example, in order to arrange the heating foam material 82 as close as possible to the third drain hole 57 , the indoor side surface of the holding piece 91 a arranged on the indoor side is placed on the outdoor side surface of the lower frame intermediate plate portion 18 . Of these, the mounting bracket 83 is fixed so as to face or abut the part adjacent to the inner side of the third drain hole 57 in the in-plane direction with a minute gap therebetween. That is, the mounting bracket 83 is fixed so as to reduce the volume of the outdoor space 84 .

According to the window device 1 of the present embodiment having the drainage structure as described above, among the first drainage hole 55 to the fourth drainage hole 58 used for discharging the condensed water to the outside, the heated foam material faces (surface It is possible to effectively prevent the third drain hole 57, which is formed at a position where it is difficult to face the third drain hole 57, from becoming a passage for flames, hot air, etc. when a fire occurs.
That is, in this example, the heating foam material 82 is arranged inside the glass groove 20a and in the vicinity of the third drainage hole 57 (inside in the in-plane direction), and the plate thickness direction of the heating foam material 82 is aligned with the third drainage hole. It is aligned with the in-plane direction perpendicular to the central axis direction of the hole 57 . Therefore, when a fire occurs, the heated foaming material 82 can fill (fill) the outdoor space 84 existing in the vicinity of the third drain hole 57 on the outdoor side. Especially in this example, the direction of foaming of the heating foam material 82 is restricted by the restricting plate portion 87 provided on the mounting bracket 83 . Specifically, the heated foam material 82 that has been foamed is prevented from moving upward. Therefore, the outdoor space 84 can be sufficiently (at a high density) filled with the foamed heated foam material 82 .

Furthermore, in this example, since the heating foam material 82 is supported by the mounting bracket 83 using the pair of holding pieces 91a and 91b, even if dew condensation water or rain water adheres to the heating foam material 82, Also, it is possible to prevent the posture of the heating foam material 82 from changing. The pair of holding pieces 91a and 91b hold only both ends in the width direction (indoor/outdoor direction) of the heating foam material 82, and most of the heating foam material 82 is held by the holding pieces 91a. , 91b. Therefore, it is possible to effectively prevent the mounting bracket 83 from interfering with the foaming of the heating foam material 82 . Therefore, from this point of view as well, the outdoor space 84 can be sufficiently (at a high density) filled with the foamed heated foam material 82 . As a result, in this example, it is possible to effectively prevent the third drain hole 57 from becoming a path for flames, hot air, etc. when a fire occurs.

Moreover, in this example, since the holding pieces 91a and 91b are plastically deformed and the heating foam material 82 is crimped and fixed, it is possible to transport the heating foam material 82 while it is attached to the mounting bracket 83. The posture of the heating foam material 82 can be stabilized over a long period of time.

Further, according to the window device 1 of the present embodiment, it is possible to suppress deterioration of the heat insulation performance, and prevent water from leaking from the upper space 32 formed between the upper surface of the lower frame main body 14 and the lower surface of the lower frame cover 15. can be prevented.
That is, in this example, the upper end of a hollow cylindrical drainage guide 61 (guide body 77) arranged in the upper space 32 is closed by using a sealing material 62 to close the drainage valve 60 attached to the first drainage hole 55. The insertion cylinder part 78 provided at the lower end of the drain guide 61 is inserted into the second drain hole 56 without any gap while being connected to the lower part of the tubular part 65 forming the drain guide 61 without any gap.

Therefore, the condensed water guided downward through the first drainage channel 67 of the drainage valve 60 is discharged to the lower space 25 through the second drainage channel 76 without leaking into the upper space 32 (outside the drainage guide 61). be able to. As a result, the condensed water enters the upper space 32 (outside the drainage guide 61) and passes through the minute gap present at the contact portion (engagement portion) between the lower frame main body 14 and the lower frame cover 15. can be prevented from leaking out.

Furthermore, water and air entering the lower space 25 through the third drain hole 57 formed in the lower frame main body 14 enter the second drain passage 76 through the insertion tube portion 78 . Therefore, it does not enter the upper space 32 directly. In addition, the water and outside air entering the second drainage channel 76 do not leak from the drainage guide 61 to the outside (upper space 32). Therefore, as in the case of condensed water, water such as rainwater entering the lower space 25 through the third drain hole 57 does not leak into the upper space 32 (outside the drain guide 61). Therefore, the water that has entered the lower space 25 through the third drain hole 57 enters the upper space 32 (outside the drain guide 61) and is present at the contact portion between the lower frame main body 14 and the lower frame cover 15. Leakage through minute gaps can be prevented. In addition, since the lower frame cover 15 can be effectively prevented from being directly exposed to the outside air, the temperature of the lower frame cover 15 can be prevented from dropping to the temperature of the outside air, and the heat insulation performance of the window device 1 is reduced. can be suppressed.

Moreover, when outside air enters the drain guide 61 through the third drain hole 57 , the swing valve 66 that constitutes the drain valve 60 swings upward about the pivot shaft portion 73 . As a result, the peripheral edge portion of the upper surface of the swing valve 66 is brought into contact with the lower surface of the inward flange portion 69 over the entire circumference, closing the upper end opening of the first drain passage 67 . Therefore, it is possible to prevent outside air and water entering the drainage guide 61 through the third drainage hole 57 from entering the room through the first drainage channel 67 .

In the above-described embodiment, in order to prevent the drainage hole formed in the lower frame from becoming a passage for flames, hot air, etc. in the event of a fire, the mounting bracket supporting the heated foam material is fixed to the lower frame. explained. However, when carrying out the present invention, any through hole having a central axis facing the indoor/outdoor direction, such as an air introduction hole for introducing air into the room, may be used regardless of its use. can be targeted without Further, the frame member having the through holes is not limited to the lower frame, and can be a frame member that constitutes a window frame, such as a vertical frame or a horizontal frame.

In addition, in the above-described embodiments, the case where the present invention is applied to a FIX window has been described, but the present invention can be applied to windows of various conventionally known structures such as double sliding windows, single sliding windows, vertical sliding windows, and the like. It can be applied to the device. In other words, the present invention also applies to a structure in which a shoji is installed inside a window frame so that it can be opened and closed. Further, the present invention also applies to shoji screens provided with drainage holes and air introduction holes opening in glass grooves.

1 window device 2 window frame 3 glass panel 4 upper frame 5 lower frame 6 vertical frame 7 upper frame main body 8 upper frame cover 9 upper frame substrate portion 10 upper frame outdoor side plate portion 11 upper frame intermediate plate portion 12 upper frame cover locking piece 13 Upper frame main locking piece 14 Lower frame main body 15 Lower frame cover 16 Lower frame base plate portion 17 Lower frame outdoor side plate portion 18 Lower frame intermediate plate portion 19 Lower frame indoor side plate portion 20a, 20b, 20c Glass groove 21 Indoor side frame 22 rectangular frame portion 23 upper plate portion 24 side plate portion 25 lower space 26 top plate portion 27a, 27b leg plate portion 28 connecting plate portion 29a, 29b, 29c lower frame cover locking piece 30a, 30b, 30c lower frame body locking piece 31a , 31b lower frame cover protrusion 32 upper space 33 vertical frame main body 34 vertical frame cover 35 vertical frame substrate portion 36 vertical frame outdoor side plate portion 37 vertical frame intermediate plate portion 38 vertical frame cover locking piece 39 vertical frame body locking piece 40a , 40b Glass plate 41 Spacer 42 Intermediate layer 43 Sealing material 44 Upper edge 45 Vertical edge 46 Upper edge first cover 47 Bolt 48 Upper edge second cover 49 Vertical edge first cover 50 Bolt 51 Vertical edge second cover Cover 52 Setting block 53a Outdoor backup material 53b Indoor backup material 54a Outdoor sealing material 54b Indoor sealing material 55, 55a First drain hole 56, 56a Second drain hole 57, 57a Third drain hole 58 Fourth drain hole 59 Drain device 60 Drain valve 61 Drain guide 62 Sealing material 63 Drain valve body 64 Roof body 65 Cylindrical part 66 Swing valve
67 first drainage channel 68 outward flange portion 69 inward flange portion 70 support hole 71 mounting protrusion 72 valve main body 73 pivot shaft portion 74 stopper piece 75 engagement receiving portion 76 second drainage channel 77 guide main body 78 insertion cylindrical portion 79a, 79b Projecting plate portion 80 Seat surface 81 Insertion hole 82 Heated foam member 83 Mounting bracket 84 Outdoor space 85 Fixing plate portion 86 Supporting plate portion 87 Regulating plate portion 88 Mounting hole 89 Mounting screw 90 Screw hole 91a, 91b Holding piece 92 Holding Groove 93 Wide portion 94 Drain groove

Claims (6)

A frame member for a window frame, comprising a glass groove into which an end of a glass panel is inserted, and a through hole having a central axis facing an indoor/outdoor direction and opening into the glass groove, the frame member comprising: ,
Inside the glass groove, a plate-shaped heating foam material that expands at least in the plate thickness direction by heating is fixed to the bottom of the glass groove, and the plate thickness direction is aligned with the longitudinal direction of the glass groove. and a mounting bracket supporting the heating foam material is arranged near the through hole,
The mounting bracket is made of a metal plate and has a crank shape. a support plate portion that is bent at a substantially right angle from an end portion near the through hole and supports the heated foam material on a surface near the through hole with respect to the longitudinal direction of the glass groove; a regulating plate portion that is bent from the end of the glass groove farther from the bottom of the glass groove in the longitudinal direction of the glass groove to the side opposite to the fixed plate portion and that regulates the foaming direction of the heating and foaming material;
Frame material for window frames. The support plate portion has a pair of holding pieces for holding the ends of the heating foam material on both indoor and outdoor direction ends, and the holding pieces are configured to hold the heating foam material. 2. The frame member for a window frame according to claim 1, wherein the is held down in the plate thickness direction. The frame material for a window frame according to any one of claims 1 and 2, wherein the regulating plate portion is arranged at a position overlapping with the through hole in the longitudinal direction of the glass groove. The frame member for a window frame according to any one of claims 1 to 3, wherein the heating foam material is arranged at a position slightly deviated from the through hole in the longitudinal direction of the glass groove. The frame material for a window frame according to any one of claims 1 to 4, wherein said through-holes are open at longitudinal ends of said glass grooves. The frame material for a window frame according to any one of claims 1 to 5, wherein the through holes are drain holes for discharging dew condensation water to the outside.

Images