JP2016030996A - Door body - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a door body excellent in assemblability, and having high panel body holding performance by one side frame reinforcement member and the other side frame reinforcement member.SOLUTION: One side frame reinforcement member 35 and the other side frame reinforcement member 37 respectively stored in a panel body take-in groove provided in a pair of one side frames and a pair of other side frames for supporting a panel body 3, are respectively provided with base surfaces 35a and 37a positioned on the outside in the in-plane direction of the panel body, first bending surfaces 35b and 37b oppositely bent to one surface of the panel body from the base surfaces and second bending surfaces 35c and 37c oppositely bent to the other surface 5a of the panel body from the base surfaces, and the second bending surfaces of the one side frame reinforcement member directly or indirectly contacts with the other surface, on the one hand, the first bending surface of the one side frame reinforcement member does not contact with one surface, and the first bending surface of the other side frame reinforcement member directly or indirectly contacts with the one surface, on the one hand, the second bending surface of the other side frame reinforcement member does not contact with the other surface.SELECTED DRAWING: Figure 6

Description

  The present invention relates to a door.

  A door body such as a door provided with a pair of one side frames such as a panel body and a reed and a pair of other side frames such as a vertical reed is already well known. In such a door body, a panel body squeezing groove for squeezing the panel body is provided in each of the one side frame and the other side frame.

  Also, in such doors, for fire prevention, incombustible or flame retardant one side frame reinforcing member and the other side in the panel body swallowing grooves in the pair of one side frame and the pair of other side frame Some frame reinforcement members are accommodated. The one side frame reinforcing member and the other side frame reinforcing member include a base surface located outside in the in-plane direction of the panel body, and a first bent surface that is bent so as to face the one surface of the panel body from the base surface. And a second bent surface that is bent so as to face the other surface of the panel body from the base surface.

JP 2005-163265 A

  Conventionally, both the first folded surface and the second folded surface of the one side frame reinforcing member (the other side frame reinforcing member) are in direct or indirect contact with one surface or the other surface of the panel body. For this reason, when the door is assembled, there are a plurality of contact points, and therefore, there is a problem that the assemblability is not good due to an increase in friction between the bent surface and the panel body surface. Moreover, even if the design is changed in order to improve the assemblability, there has been a demand for keeping the panel body holding performance by the one side frame reinforcing member and the other side frame reinforcing member high.

  This invention is made | formed in view of this subject, The place made into the objective implement | achieves a door body with good assembly property and high panel body holding | maintenance performance by the one side frame reinforcement member and the other side frame reinforcement member. There is.

In order to achieve such an object, the door body of the present invention includes a rectangular panel body,
A pair of one side frames provided with a panel body squeezing groove for squeezing the opposite side of one side of the panel body;
A pair of other side frames provided with a panel body squeezing groove for squeezing the opposite side of the other side of the panel body;
Have
The pair of one side frames and the pair of other side frames accommodate incombustible or flame retardant one side frame reinforcing members and other side frame reinforcing members, respectively, in the panel body squeezing grooves.
The one side frame reinforcing member and the other side frame reinforcing member are bent in such a manner that a base surface located outside in the in-plane direction of the panel body and a base surface facing the one surface of the panel body are opposed to each other. Each of the doors includes a folded surface and a second folded surface that is folded so as to face the other surface of the panel body from the base surface,
The second bent surface of the one-side frame reinforcing member is in direct or indirect contact with the other surface, whereas the first bent surface of the one-side frame reinforcing member is not in contact with the one surface. ,
The first bent surface of the other side frame reinforcing member is in direct or indirect contact with the one surface, while the second bent surface of the other side frame reinforcing member is not in contact with the other surface. It is a door body characterized by.

  According to such a door body, when assembling the door body, the number of contact points is reduced and the assemblability is improved. Further, even when the design is modified in consideration of assemblability, it is possible to maintain the panel body holding performance by the one side frame reinforcing member and the other side frame reinforcing member. Therefore, it is possible to realize a door body that is easy to assemble and has high panel body holding performance by the one side frame reinforcing member and the other side frame reinforcing member.

  In such a door body, it is preferable that a heating foam material is provided on the first bent surface of the one-side frame reinforcing member and the second bent surface of the other-side frame reinforcing member.

  According to such a door, the heated foam material expands in the event of a fire, and fills the gap formed between the first bent surface and the one surface of the one side frame reinforcing member. It is possible to appropriately prevent the flame from passing through the gap. Similarly, the heated foam material expands in the event of a fire and fills the gap formed between the second bent surface and the other surface of the other side frame reinforcing member, so that the flame passes through the gap. Can be suppressed appropriately. Therefore, it becomes possible to improve fireproof performance.

  According to the present invention, it is possible to realize a door body that is easy to assemble and has high panel body holding performance by the one side frame reinforcing member and the other side frame reinforcing member.

1 is a schematic front view of a joinery 1. FIG. 1 is a longitudinal sectional view of a joinery 1. 1 is a cross-sectional view of a joinery 1. It is sectional drawing of the vertical stagnation groove | channel 36 and the horizontal stagnation groove | channel 34. It is sectional drawing of the vertical stagnation groove | channel 36 and the horizontal stagnation groove | channel 34. 3 is a front view showing the positions of a reinforcing member and a heating foam material 70 in a corner portion of the door 20. FIG. 4 is a perspective view showing positions of a reinforcing member and a heating foam material 70 at a corner portion of the door 20. FIG. It is sectional drawing of the vertical pinch groove 36 and the horizontal pinch groove 34 which concern on 2nd embodiment. It is sectional drawing of the vertical pinch groove 36 and the horizontal pinch groove 34 which concern on 2nd embodiment.

=== About the fitting 1 according to the present embodiment ===
Hereinafter, a fitting 1 according to an embodiment of the present invention will be described with reference to FIGS. 1 to 3. FIG. 1 is a schematic front view of a joinery 1 in which a door 20 is provided on a frame body 10. FIG. 2 is a longitudinal sectional view of the fitting 1 (FIG. 1). FIG. 3 is a cross-sectional view of the fitting 1 (FIG. 1).

  As shown in FIGS. 1 to 3, the joinery 1 of the present embodiment includes a frame body 10 that is rectangularly framed to form an opening, and a door that is rotatably supported by the frame body 10 and that can freely close the opening. And a door 20 as an example of a body.

  In the following description, in a state in which the joinery 1 is attached to a building or the like, the vertical direction is the vertical direction, the horizontal direction is the horizontal direction, and the depth direction that is the indoor / outdoor direction is the prospective direction.

  The joinery 1 according to the present embodiment is rotatably supported on a frame body 10 as a four-sided frame in which upper and lower upper frames 11 and 12 and a left and right vertical frame 13 are framed, and one vertical frame 13 side. And a door 20 capable of opening and closing an opening formed in the frame body 10 by rotating.

  The upper frame 11, the lower frame 12, and the left and right vertical frames 13 are each an outer frame portion 11a, an outer frame portion 12a, an outer frame portion 13a, and an outer frame portion made of an aluminum extrusion-molded member disposed on the outdoor side. 11a, outer frame portion 12a, and inner frame member 11b, inner frame member 12b, and inner frame member 13b made of a synthetic resin extrusion-molded member attached to the indoor side of outer frame portion 13a. Each of the outer frame portion 11a, the outer frame portion 12a, and the outer frame portion 13a has a frame hollow portion 11c, a frame hollow portion 12c, and a frame hollow portion 13c that penetrate in the longitudinal direction.

  The door 20 is composed of vertical eaves (door tip eaves 21 and suspension eaves 22) that extend in the vertical direction, and a pair of upper and lower horizontal eaves (upper eaves 24 and lower eaves 25) between these upper and lower ends. ), And a double-glazed glass 3 as an example of a rectangular panel provided so as to close an area surrounded by the housing 23. The suspension rod 22 is rotatably supported on one vertical frame 13 side by a mechanism such as a hinge.

  The door rod 21, the hanging rod 22, the upper rod 24, and the lower rod 25 are all arranged on the outdoor side, and are an outer flange portion 21a, an outer flange portion 22a, an outer flange portion 24a, which are made of an extruded member made of aluminum, The outer flange portion 25a, the outer flange portion 21a, the outer flange portion 22a, the outer flange portion 24a, the inner flange member 21b, which is an extruded member made of synthetic resin attached to the indoor side of the outer flange portion 25a, the inner flange member 22b, It has an inner casing material 24b and an inner casing material 25b, and is an aluminum resin composite member.

  The outer flange portion 21a, the outer flange portion 22a, the outer flange portion 24a, and the outer flange portion 25a all have a flange hollow portion 21c, a flange hollow portion 22c, a flange hollow portion 24c, and a flange hollow portion 25c penetrating in the longitudinal direction. ing. Further, the inner flange material 21b and the inner flange material 22b also have a flange hollow portion 21d, a flange hollow portion 22d, a flange hollow portion 24d, and a flange hollow portion 25d penetrating in the longitudinal direction.

  Further, the outer flange portion 21a, the outer flange portion 22a, the outer flange portion 24a, the outer flange portion 25a and the inner flange member 21b, the inner flange member 22b, the flange hollow portion 24c, and the flange hollow portion 25c are all made of the multilayer glass 3. An extending portion extending in the direction is provided, and a glass squeezing groove 30 (so-called glass opening) for squeezing the multilayer glass 3 is formed by the extending portion. The glass squeezing groove 30 will be described in detail later.

  The multi-layer glass 3 is such that the outer meshed glass 4 and the inner glass 5 face each other with a gap in the prospective direction, and the glass 4 and the glass 5 are internally dried at the inner peripheral ends in the vertical and horizontal directions. A spacer 6 in which the agent is enclosed is provided. The spacer 6 is bonded to each of the glass 4 and the glass 5 with a seal (not shown).

=== About the glass squeezing groove 30 according to the present embodiment ===
Next, the glass squeezing groove 30 as an example of the panel squeezing groove according to the present embodiment will be described with reference to FIGS. 4A to 6. 4A and 4B are cross-sectional views of the vertical stagnation groove 36 and the horizontal stagnation groove 34. FIG. 5 is a front view showing the positions of the reinforcing member and the heating foam material 70 in the corner portion of the door 20. FIG. 6 is a perspective view showing the positions of the reinforcing member and the heating foam material 70 at the corner portion of the door 20.

  In FIG. 4A and FIG. 4B, the description of the multilayer glass 3 is omitted for easy understanding of the drawings. Moreover, in FIG.5 and FIG.6, description of the gasket 38 is abbreviate | omitted for the same reason.

  The glass squeezing groove 30 is formed in a vertical gutter (door tip gutter 21 and suspension gutter 22) as an example of a pair of one side frames or a horizontal gutter (upper gutter 24 and lower gutter 25) as an example of a pair of other side frames. It is a part which is provided and squeezes the opposite side of the rectangular multilayer glass 3. As the said glass squeezing groove 30, it is provided in a vertical cocoon and a pair of vertical glazing glass squeezing grooves (hereinafter simply referred to as vertical squeezing grooves) that squeeze the opposite sides (both ends in the left-right direction) of the multilayer glass 3 respectively. 36) and a pair of horizontal glass squeezing grooves (hereinafter simply referred to as horizontal squeezing grooves 34), which are provided on the horizontal side and squeeze the opposite sides (both ends in the vertical direction) of one side of the multilayer glass 3. Called). The vertical stagnation groove 36 is a long groove, and its longitudinal direction is along the vertical direction. Moreover, the horizontal scooping groove 34 is a long groove, and its longitudinal direction is along the left-right direction.

  The vertical stagnation groove 36 has a U-shape in cross section. That is, the vertical swallowing groove 36 has a first prospective direction portion 36a adjacent to the saddle hollow part 21c, the saddle hollow part 22c, the saddle hollow part 21d, and the saddle hollow part 22d described above along the prospective direction in the cross section, The first left-right direction portion 36b and the second left-right direction portion 36c along the left-right direction extending inward in the left-right direction from both ends of the one prospective direction portion 36a, and the first left-right direction portion 36b and the second left-right direction portion 36c. A second prospective direction portion 36d and a third prospective direction portion 36e are provided along the prospective direction extending inward in the prospective direction from each end.

  An opening is formed between the second prospective direction portion 36d and the third prospective direction portion 36e, and a side end portion of the multilayer glass 3 is inserted into the opening. Further, between the second prospective direction portion 36d and the multilayer glass 3 (specifically, the glass 4) and between the third prospective direction portion 36e and the multilayer glass 3 (specifically, the glass 5), A gasket 38 is interposed, whereby the multi-layer glass 3 is supported in the vertical stagnation groove 36.

  The outdoor side of the first prospective direction portion 36a is made of aluminum, and the indoor side is made of synthetic resin. The first left-right direction portion 36b and the second prospective direction portion 36d are made of aluminum, and the second left-right direction portion 36c and the third prospective direction portion 36e are made of synthetic resin.

  A vertical rod reinforcing member 37 as an example of a nonflammable or flame retardant other side frame reinforcing member is accommodated in the vertical pinching groove 36. The vertical wall reinforcing member 37 has a function of preventing the double-glazed glass 3 from falling off even if the vertical stagnation groove 36 made of aluminum or synthetic resin is melted by a fire. The vertical hook reinforcing member 37 is provided from one end to the other end in the longitudinal direction of the vertical hook groove 36 (see FIGS. 5 and 6).

  The vertical rod reinforcing member 37 is a member made of stainless steel or steel having a U-shape in a cross section. That is, the vertical gutter reinforcing member 37 has a base surface (referred to as a vertical gutter base surface 37 a) located outside (in the multi-layer glass 3) in the in-plane direction of the multi-layer glass 3. This vertical gutter base surface 37a is a surface which is located on the side of the side end 3a of the multilayer glass 3 and whose out-of-plane direction is along the left-right direction. The vertical rod reinforcing member 37 is fixed to the vertical rod by fixing the vertical rod base surface 37a to the outer flange portion 21a and the outer flange portion 22a by a fixing tool 72 such as a screw or a rivet.

  Further, the vertical reinforcing member 37 is a glass 4 side surface (that is, an outdoor glass outer surface; hereinafter referred to as an outdoor outer surface 4a) as a bent surface that is bent so as to face the multilayer glass 3 from the vertical base surface 37a. And a glass 5 side surface (that is, a glass outer surface on the indoor side; hereinafter referred to as an indoor side surface 5a). And a second bent surface (referred to as a vertical saddle second bent surface 37c) that is bent so as to oppose the surface. The outdoor side surface 4a corresponds to one side of the glass, and the indoor side surface 5a corresponds to the other side of the glass.

  That is, the vertical hook base surface 37a is located between the side end 3a and the first prospective direction portion 36a in a state along the prospective direction in the cross section. Further, the first vertical folding surface 37b of the vertical wall is located between the glass 4 (outside surface 4a) and the first left-right direction portion 36b in a state along the left-right direction in the cross section. Further, the vertical saddle second folding surface 37c is located between the glass 5 (interior side surface 5a) and the second left-right direction portion 36c in a state along the left-right direction in the cross section.

  Note that the first vertical folding surface 37b is in direct or indirect contact (in the present embodiment, indirectly) with the outdoor side surface 4a. That is, the first vertical folding surface 37b of the vertical hook is in contact with the outdoor side surface 4a via the gasket 38. On the other hand, the vertical hook second bent surface 37c does not contact the indoor side surface 5a.

  Further, a heating foam material 70 is provided in the vertical swallowing groove 36. The heated foam 70 expands when exposed to a flame during a fire, and its volume increases. And by this, a clearance can be filled and the path of a flame can be blocked. The heating foam material 70 is provided in the vertical stagnation groove 36 on the indoor side in the prospective direction of the vertical ridge base surface 37a, and is located between the vertical ridge base surface 37a and the side end 3a.

  The horizontal groove 34 has a U-shape in the longitudinal section. That is, the horizontal scooping groove 34 has, in the longitudinal section, the first prospective direction portion 34a adjacent to the scissor hollow part 24c, the scissor hollow part 25c, the scissor hollow part 24d, and the scissor hollow part 25d described above along the prospective direction. The first vertical direction portion 34b and the second vertical direction portion 34c along the vertical direction extending inward in the vertical direction from both ends of the one prospective direction portion 34a, and the first vertical direction portion 34b and the second vertical direction portion 34c. A second prospective direction portion 34d and a third prospective direction portion 34e along the prospective direction extending inward in the prospective direction from the respective ends.

  An opening is formed between the second prospective direction portion 34d and the third prospective direction portion 34e, and the upper and lower ends of the multilayer glass 3 are inserted into the opening. Further, between the second prospective direction portion 34d and the multilayer glass 3 (specifically, the glass 4) and between the third prospective direction portion 34e and the multilayer glass 3 (specifically, the glass 5), A gasket 38 is interposed, whereby the double-glazed glass 3 is supported by the horizontal sunk grooves 34.

  The outdoor side of the first prospective direction portion 34a is made of aluminum, and the indoor side is made of synthetic resin. The first vertical direction portion 34b and the second prospective direction portion 34d are made of aluminum, and the second vertical direction portion 34c and the third prospective direction portion 34e are made of synthetic resin.

  A recumbent reinforcement member 35 as an example of a nonflammable or flame retardant one side frame reinforcing member is accommodated in the recumbent penetration groove 34. The horizontal reinforcing member 35 has a function of preventing the double-glazed glass 3 from dropping even if the horizontal horizontal groove 34 made of aluminum or synthetic resin is melted by a fire. The recumbent reinforcement member 35 is provided from one end to the other end in the longitudinal direction of the recumbent groove 34 (see FIGS. 5 and 6).

  The recumbent reinforcement member 35 is a member made of stainless steel or steel having a U-shape in a longitudinal section. That is, the recumbent reinforcement member 35 has a base surface (referred to as a recumbent base surface 35 a) located outside (in the multi-layer glass 3) in the in-plane direction of the multi-layer glass 3. The recumbent base surface 35a is a surface located above the upper end 3c or below the lower end 3b of the multilayer glass 3 and having an out-of-plane direction along the vertical direction. The recumbent reinforcement member 35 is fixed to the recumbent by fixing the recumbent base surface 35a to the outer flange part 24a and the outer flange part 25a by a fixing tool 72 such as a screw or a rivet.

  Further, the recumbent reinforcing member 35 is a first bent surface (Yokohama No. 1) that is bent so as to face the outdoor side surface 4a as a bent surface that is bent so as to face the multi-layer glass 3 from the recumbent base surface 35a. And a second bent surface (referred to as a lateral second bent surface 35c) that is bent so as to face the indoor side surface 5a.

  That is, the recumbent base surface 35a is located between the lower end 3b (or the upper end 3c) and the first prospective direction portion 34a in a state along the prospective direction in the longitudinal section. Further, the first horizontal folding surface 35b is positioned between the glass 4 (outside surface 4a) and the first vertical portion 34b in a state along the vertical direction in the longitudinal section. Further, the second horizontal folding surface 35c is positioned between the glass 5 (inner side surface 5a) and the second vertical part 34c in a state along the vertical direction in the longitudinal section.

  The recumbent second folding surface 35c is in direct or indirect contact (in the present embodiment, indirectly) with the indoor side surface 5a. That is, the recumbent second bent surface 35 c is in contact with the indoor side surface 5 a via the gasket 38. On the other hand, the recumbent first bending surface 35b is not in contact with the outdoor side surface 4a.

  In addition, a heating foam material 70 is provided in the horizontal penetration groove 34. The heating foam 70 is provided on the indoor side in the prospective direction of the recumbent base surface 35a in the recumbent groove 34, and between the recumbent base surface 35a and the lower end 3b (or the upper end 3c). positioned.

=== Effectiveness of Door 20 According to the Present Embodiment ===
As described above, in the present embodiment, the recumbent second bending surface 35c of the recumbent reinforcement member 35 directly or indirectly contacts the indoor side surface 5a, while the recumbent first bending surface 35b is The outdoor side surface 4a was not contacted. Further, the vertical hook first bent surface 37b of the vertical hook reinforcing member 37 is in direct or indirect contact with the outdoor side surface 4a, while the vertical hook second bent surface 37c is not in contact with the indoor side surface 5a. . Therefore, it is possible to realize the door 20 that is easy to assemble and has high glass holding performance by the recumbent reinforcement member 35 and the vertical reinforcement reinforcing member 37.

  In other words, in the conventional example, both the first side folding surface 35b and the second side folding surface 35c of the horizontal reinforcement member 35 are in direct or indirect contact with the outdoor side surface 4a and the indoor side surface 5a. . For this reason, when the door 20 is assembled, there are a plurality of contact points, and therefore, there is a problem that the assemblability is not good due to an increase in friction between the bent surface and the glass surface. Similarly, for the vertical rod reinforcing member 37, both the vertical rod first bent surface 37b and the vertical rod second bent surface 37c are in direct or indirect contact with the outdoor side surface 4a and the indoor side surface 5a. There was a problem that the assemblability was not good.

  Therefore, in the present embodiment, the recumbent second bending surface 35c of the recumbent reinforcing member 35 directly or indirectly contacts the indoor side surface 5a, while the recumbent first bending surface 35b is the outdoor side surface. It was decided not to contact 4a. Further, the vertical hook first bent surface 37b of the vertical hook reinforcing member 37 is in direct or indirect contact with the outdoor side surface 4a, while the vertical hook second bent surface 37c is not in contact with the indoor side surface 5a. . For this reason, when the door 20 is assembled, the number of contact points is reduced and the assemblability is improved.

  Moreover, in this Embodiment, it decided to change the surface (in other words, surface which suppresses the multi-layer glass 3) which is made to contact with the multi-layer glass 3 by the recumbent reinforcement member 35 and the vertical reinforce member 37. That is, both the recumbent reinforcement member 35 and the vertical reinforcement reinforcing member 37 are not in contact with the outdoor side surface 4a, and both the recumbent reinforcement member 35 and the vertical reinforcement reinforcing member 37 are not in contact with the indoor side surface 5a. One of the recumbent reinforcing member 35 and the vertical reed reinforcing member 37 is brought into contact with the outdoor side surface 4a and the other is brought into contact with the indoor side surface 5a.

  Therefore, as can be easily understood from FIG. 6, even if the horizontal or vertical resin groove 34 and 36 are melted due to a fire, the horizontal reinforcing member 35 and the vertical reinforcing member 37 are melted. Therefore, the multi-layer glass 3 is appropriately retained. That is, in consideration of assemblability, even if the design is modified so that the first horizontal folding surface 35b (second vertical folding surface 37c) does not contact the outdoor side surface 4a (internal side surface 5a), the horizontal reinforcing member It becomes possible to maintain the glass retention performance by 35 and the vertical gutter reinforcement member 37.

=== Other Embodiments ===
The above embodiments are for facilitating the understanding of the present invention, and are not intended to limit the present invention. The present invention can be changed and improved without departing from the gist thereof, and it is needless to say that the present invention includes equivalents thereof. In particular, the embodiments described below are also included in the present invention.

  In the above, although the door 20 was mentioned as an example as a door body, it is not limited to this. For example, a shoji screen or a window may be used.

  Further, in the above description, a horizontal reed is used as the pair of one side frames and a vertical reed is used as the pair of the other side frames, but the present invention is not limited thereto. For example, when the door is a fixed window (fitting window), the horizontal frame and the vertical frame correspond to a pair of one side frame and a pair of other side frame, respectively, and such a case is also within the scope of the present invention. It is.

  Moreover, in the above, although glass was mentioned as an example as a panel body, it is not limited to this, The panel body which is not glass may be sufficient. Moreover, although the multilayer glass 3 was mentioned as an example as glass, it is not limited to this. For example, it may be a single plate glass or three or more glasses.

  Moreover, in the said embodiment, although the outdoor side surface 4a was mentioned as an example as one side of a panel body (glass), and the indoor side surface 5a was mentioned as an example as the other side of a panel body (glass), it is limited to this. The one side may be the indoor side surface 5a and the other side may be the outdoor side surface 4a. That is, the recumbent reinforcement member 35 may be in contact with the outdoor side surface 4a, and the vertical reinforcement reinforcing member 37 may be in contact with the indoor side surface 5a.

  Moreover, in the said embodiment, although the example in which a bending surface contacts the outdoor side surface 4a and the indoor side surface 5a indirectly was given, it is not limited to this, A bending surface is the outdoor side surface 4a and the indoor side surface 5a. It is good also as contacting directly. Moreover, although the example which contacts via the gasket 38 was given as an example which a bending surface contacts indirectly the outdoor side surface 4a and the indoor side surface 5a, it is not limited to this. For example, the case where it contacts via the heating foam material 70, and the case where it contacts via both the gasket 38 and the heating foam material 70 may be sufficient.

  In the above embodiment, the vertical hook reinforcing member 37 is provided from one end portion to the other end portion in the longitudinal direction of the vertical hook groove 36. Further, the recumbent reinforcement member 35 is provided from one end to the other end in the longitudinal direction of the recumbent groove 34. However, the present invention is not limited to this, and the vertical reinforcing member 37 and the horizontal reinforcing member 35 may be a piece-like member instead of the full length.

  In the above-described embodiment, the first horizontal folding surface 35b is not brought into contact with the outdoor side surface 4a, and the second vertical folding surface 37c is not brought into contact with the indoor side surface 5a. It is good also as sticking the heating foam 70 to the bent surface. That is, as shown in FIGS. 7A and 7B, the heating foam material 70 may be provided on the first side folding surface 35b and the second side folding surface 37c (this example is referred to as a second embodiment). . The difference of the second embodiment from the above embodiment is only the configuration related to the heating foam material 70.

  That is, as described above, the heating foam material 70 is provided in the vertical stagnation groove 36 on the indoor side in the prospective direction of the vertical ridge base surface 37a, and between the vertical ridge base surface 37a and the side end 3a. However, in the second embodiment, in addition to this, it is provided on the vertical hook second folding surface 37c, and between the vertical hook second bending surface 37c and the indoor side surface 5a (specifically, the vertical hook). (Between the second folding surface 37c and the gasket 38). Note that the heated foam material 70 is not in contact with the gasket 38 during non-foaming.

  Further, as described above, the heating foam 70 is provided on the indoor side in the prospective direction of the recumbent base surface 35a in the recumbent groove 34, and the recumbent base surface 35a and the lower end 3b (or the upper end 3c). In the second embodiment, in addition to this, it is provided on the first side folding surface 35b and between the first side folding surface 35b and the outdoor side surface 4a (specifically Specifically, it is located between the first horizontal folding surface 35b and the gasket 38). Note that the heated foam material 70 is not in contact with the gasket 38 during non-foaming.

  And according to 2nd embodiment, in the case of a fire, the heating foam material 70 provided in the vertical wall 2nd bending surface 37c expand | swells, and it forms between the vertical wall 2nd bending surface 37c and the indoor side surface 5a. Since it fills in the gap that has been made, it is possible to appropriately prevent the flame from passing through the gap. Similarly, in the event of a fire, the heated foam material 70 provided on the first side folding surface 35b expands to fill the gap formed between the first side folding surface 35b and the outdoor side surface 4a. Therefore, it is possible to appropriately prevent the flame from passing through the gap. Therefore, it becomes possible to improve fireproof performance.

3 Double-glazed glass 4a Outdoor side surface, 5a Indoor side surface 20 Door 21 Door end fence, 22 Lifting fence, 24 Upper fence, 25 Lower fence 30 Glass penetration groove, 34 Horizontal penetration groove 35 Horizontal reinforcement member 35a Horizontal foundation , 35b, first horizontal folding surface, 35c second horizontal folding surface 36, vertical penetration groove 37, vertical reinforcement member 37a, vertical vertical base surface, 37b first vertical folding surface, 37c second vertical folding surface 70, heating foam Material

Claims (2)

A rectangular panel body,
A pair of one side frames provided with a panel body squeezing groove for squeezing the opposite side of one side of the panel body;
A pair of other side frames provided with a panel body squeezing groove for squeezing the opposite side of the other side of the panel body;
Have
The pair of one side frames and the pair of other side frames accommodate incombustible or flame retardant one side frame reinforcing members and other side frame reinforcing members, respectively, in the panel body squeezing grooves.
The one side frame reinforcing member and the other side frame reinforcing member are bent in such a manner that a base surface located outside in the in-plane direction of the panel body and a base surface facing the one surface of the panel body are opposed to each other. Each of the doors includes a folded surface and a second folded surface that is folded so as to face the other surface of the panel body from the base surface,
The second bent surface of the one-side frame reinforcing member is in direct or indirect contact with the other surface, whereas the first bent surface of the one-side frame reinforcing member is not in contact with the one surface. ,
The first bent surface of the other side frame reinforcing member is in direct or indirect contact with the one surface, while the second bent surface of the other side frame reinforcing member is not in contact with the other surface. A door body characterized by The door body according to claim 1,
A door body, wherein a heating foam material is provided on the first bent surface of the one side frame reinforcing member and the second bent surface of the other side frame reinforcing member.

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