JP6868073B2 - door - Google Patents

Description

The present invention relates to a door.

Conventionally, as a door provided at an entrance or the like, a door capable of suppressing heat conduction from one side to the other side of the door through the door due to a fire or the like has been proposed. Such doors are a skeleton frame, a surface material attached directly to one side of the skeleton frame orthogonal to the prospect direction, and the other side of the skeleton frame orthogonal to the prospect direction. It is configured to have a back surface material directly attached to the side surface, and is supported by a hinge so as to be openable and closable in a door frame provided at an opening of the building. In addition, a gasket is provided around the step portion of the inner peripheral surface of the door frame formed on the indoor side of the building from the door, and this gasket is in a state where the opening is closed by the door. Is arranged so as to come into contact with the door. With such a configuration, when the opening is closed by the door, the door and the gasket come into contact with each other, so that one side of the door (that is, the front surface material side or the back surface material side) is provided through the door. It is possible to suppress the conduction of heat from one side to the other side (that is, either the front surface material side or the back surface material side) (see, for example, Patent Document 1).

Japanese Unexamined Patent Publication No. 9-25754

Here, in the above-mentioned conventional door, a hinge portion such as a hinge covers a frame frame such as a front surface material and a back surface material (here, these front surface materials and back surface materials are referred to as "a pair of surface materials" below. Since it was provided so as to be in direct contact with (explained by referring to), for example, if a fire breaks out in a room of a building having this door, the heat of the fire causes one side of this door. By heating the surface material of the fire, a part of the heat of the fire was conducted from the one surface material side to the other surface material side through the hinge portion. This could prevent people from evacuating through the evacuation passage adjacent to the door, for example, in the event of a fire. For this reason, there has been a demand for a door capable of improving heat shielding performance in order to suppress heat conduction between a pair of surface materials and a hinge portion.

The present invention is for solving the above-mentioned problems in the prior art, and an object of the present invention is to provide a door capable of improving heat shielding performance.

The door according to claim 1 is a door configured by rotatably supporting the door body by a hinge portion in order to solve the above-mentioned problems and achieve the object, and the door body 2 A first surface material that covers a part of one of the main side surfaces and a part of the side surface of the door body on the door end side, and one of the other main side surfaces of the two main side surfaces of the door body. The second surface material that covers the portion and the other part of the side surface of the door body on the door tail side, and the side surface of the door body on the door tail side of the first surface material or the door body of the second surface material. A notch formed on the side surface on the door tail side, which is arranged so as to overlap the hinge portion when viewed from the finding direction, and a notch portion on the door tail side of the door body in the first surface material. A heat shield means provided between at least one of a portion or a portion of the second surface material on the door end side of the door body and the hinge portion, and a part of the heat shield means is said. A heat shield means arranged so as to be located in the notch portion, and the heat shield means is a portion of the door body on the first surface material on the door end side or the door body in the second surface material. It is a heat shield space portion consisting of a space between at least one of the door tail side portions and the hinge portion and a space in the notch portion, and is a support piece of the hinge portion when viewed from the finding direction. The notch is formed so that the tip is located in the notch and the gap between the support piece and the notch is a space between the two.
The door according to claim 2 is the door according to claim 1, wherein the portion of the first surface material on the door tail side of the door body and the second surface material on the door tail side of the door body. It is an auxiliary member that is interposed between the parts of the door and is provided with an auxiliary member for stably supporting the hinge portion, and the hinge portion and the auxiliary member are arranged so as to overlap each other when viewed from the finding direction. did.

According to the door according to claim 1, at least one of the first surface material and the second surface material and the door end side portion of the door body in the first surface material or the door of the door body in the second surface material. Since it is provided with a heat shield means provided between at least one of the tail side portions and the hinge portion, at least one of the first surface material and the second surface material is provided by the heat shield means. It is possible to suppress heat conduction between the door and the hinge portion, and it is possible to improve the heat shielding performance of the door (particularly, the heat shielding performance of the door end side portion of the door body). Therefore, for example, when a fire breaks out in a room of a building having the door, it is possible to avoid preventing a person from evacuating through an evacuation passage adjacent to the door.

It is a door which concerns on Embodiment 1 of this invention, and is the figure which shows the opening fully closed state, (a) is a front view, (b) is a right side view. FIG. 5 is a cross-sectional view taken along the line AA of the door of FIG. It is an enlarged view around the B region of FIG. It is an enlarged view of FIG. It is a figure which shows the vertical force bone on the door tail side, (a) is a plan view, (b) is a right side view. It is a figure which shows the door which concerns on Embodiment 2, and is the figure which shows the area corresponding to FIG. It is a figure which shows the door which concerns on Embodiment 2, and is the figure which shows the area corresponding to FIG. It is a figure which shows the door which concerns on Embodiment 3, and is the figure which shows the area corresponding to FIG. It is a figure which shows the door which concerns on Embodiment 3, and is the figure which shows the area corresponding to FIG. It is an enlarged view of FIG.

Hereinafter, embodiments of the door according to the present invention will be described in detail with reference to the accompanying drawings. First, [I] the basic concept of the embodiment will be described, then [II] the specific content of the embodiment will be described, and finally, [III] a modified example for each embodiment will be described. However, the present invention is not limited to the embodiments.

[I] Basic concept of the embodiment First, the basic concept of the embodiment will be described. The embodiment relates to a door provided at an opening of a building, which is configured by rotatably supporting a door body by a hinge portion.

Here, the "building" is a concept including, for example, an office building or a factory facility, although the specific structure and type thereof are arbitrary. Further, the "opening of a building" is an opening formed for installing a window or an entrance in a part of a building frame (for example, a wall, a ceiling, a floor, etc.). In addition, "door" means a structure for suppressing or limiting the entrance / exit or visibility of an opening of a building. In addition, the installation position and use of the door are arbitrary, but for example, the "entrance door" installed at the entrance, the "autonomous door" installed at the entrance or the entrance, or the "indoor door" installed inside the building. , Etc. are included. Further, the opening / closing structure of the door is arbitrary, and can be configured as, for example, a single-opening type hinged door or a double-opening type hinged door (so-called parent-child type door). Hereinafter, in the embodiment, when the door is a one-sided hinged door arranged at a position facing the evacuation passage of a building such as a building and a fire breaks out in a room adjacent to the evacuation passage. A case where the hinged door (that is, a single-open type heat shield door) can suppress the heat of the fire from being conducted to the evacuation passage side through the door will be described.

[II] Specific contents of the embodiment Next, the specific contents of the embodiment will be described.

[Embodiment 1]
First, the door according to the first embodiment will be described. In the first embodiment, the first heat shield means is a heat shield member, and the second heat shield means and the third heat shield means are heat shield space portions.

(Constitution)
First, the configuration of the door according to the first embodiment will be described. In the following description, the X direction in FIG. 1 is the left-right direction or the width direction of the door (-X direction is the left direction of the door, the + X direction is the right direction of the door), and the Y direction in FIG. 1 is the front-rear direction (+ Y direction) of the door. Is the front direction of the door (outside the room), -Y direction is the back direction of the door (inside the room), Z direction in Fig. 1 is the vertical direction of the door (+ Z direction is the top direction of the door). , -Z direction is referred to as the downward direction of the door). Further, in FIG. 4, the third heat shield portion 53 described later is shown by an imaginary line (the same applies to the third heat shield portion 53 shown in FIG. 10 described later).

As shown in FIGS. 1 to 4, the door 1 is roughly configured to include a frame body (not shown), a door body 10, and a hinge portion 40. However, the description of the configuration not specified for the door 1 will be omitted as it is the same as the conventional one. The mounting method (or connection method) between the various members constituting the door 1 described later is arbitrary, but for example, a mounting hole (for example, a rivet hole) formed in a member on the mounting side or a member on the mounting partner side. , Screw holes, screw holes, etc.), and attach the mounting side member to the mounting partner side member with fixtures (for example, rivets, mounting screws, screws, etc.), welding, adhesive, double-sided tape, etc. ( Or the method of connecting) is adopted.

(Structure-frame)
The frame is installed on the periphery of an opening (not shown) formed in the building frame (not shown), and includes a pair of left and right vertical frames and a pair of upper and lower horizontal frames (both not shown). .. These vertical frames and horizontal frames are each directly fixed to the building frame at the periphery of the opening by a known method, and when they are combined with each other, they form a front rectangular annular frame as a whole. In the following, of the pair of left and right vertical frames, the vertical frame on the door tail side of the door body 10 described later will be referred to as a "door tail side vertical frame", and the vertical frame on the door end side of the door body 10 described later will be referred to as necessary. The frame is called a "door end side vertical frame". Further, among the pair of upper and lower horizontal frames, the upper horizontal frame is referred to as an "upper horizontal frame", and the lower horizontal frame is referred to as a "lower horizontal frame".

Here, the vertical frame on the door end side is provided with a dead bolt receiver and a latch receiver (both are not shown). The dead bolt receiver is a dead for receiving a known dead bolt, which will be described later, provided on the door body 10 in a state where the door body 10 is positioned at a fully closed position (position shown in FIG. 1 in the first embodiment). It is a bolt receiving means and is arranged at a position corresponding to a dead bolt described later. The latch receiver is a latch receiving means provided on the door body 10 for receiving the latch described later, and is arranged at a position corresponding to the latch.

(Structure-door body)
The door body 10 is a flat plate-shaped opening / closing body for opening / closing an opening of a building. As shown in FIG. 1, the door body 10 includes a door frame 20 and surface materials 30 and 31.

(Composition-Door body-Door frame)
The door frame 20 mainly bears the rigidity of the door body 10. The door frame 20 is formed so that the front shape becomes a rectangular annular shape by combining a pair of left and right vertical force bones 21 and 22 made of steel and a pair of upper and lower lateral force bones 23 and 24. Of these, the pair of left and right longitudinal force bones 21 and 22 are formed so that their lengths in the longitudinal direction (vertical direction) are substantially the same as each other, and are arranged so as to be substantially along the vertical direction. Further, the pair of upper and lower lateral force bones 23, 24 are formed so that the lengths in the longitudinal direction (left-right direction) are substantially the same as each other, and are arranged so as to be substantially along the left-right direction. In the following, among the vertical force bones 21 and 22, the vertical force bone 21 on the door tail side of the door body 10 will be referred to as "door tail side vertical force bone 21", and the door end side of the door body 10 will be referred to as necessary. The longitudinal force bone 22 is referred to as a "door end side longitudinal force bone 22". Further, among the lateral force bones 23 and 24, the upper lateral force bone 23 is referred to as "upper lateral force bone 23", and the lower lateral force bone 24 is referred to as "lower lateral force bone 24". The door tail side longitudinal force bone 21 corresponds to a "support member" within the scope of the claims.

(Structure-door body-surface material)
The surface material 30 is a first surface material that covers a part of one of the main side surfaces of the door body 10 and a part of the side surface of the door body 10 on the door tail side. It is a second surface material that covers a part of the other main side surface of the two main side surfaces of the door body 10 and the other part of the side surface of the door body 10 on the door tail side. Here, the "main side surface" means the side surface having the largest area among the side surfaces of the door body 10, and in the first embodiment, the two side surfaces orthogonal to the prospective direction (front-rear direction), that is, the door body 10 The indoor side surface of the room and the outdoor side surface of the room of the door body 10 will be described as the main side surfaces. Further, these surface materials 30 and 31 are installed so as to cover the door frame 20 from the indoor side of the room and the outdoor side of the room, and the mounting holes (mountain holes) formed in the surface materials 30 and 31 and the door frame 20 respectively. It is fixed to the door frame 20 by a fixture or the like via (not shown). In the following, among these surface materials 30 and 31, the surface material 30 arranged on the indoor side of the room is referred to as "indoor side surface material 30", and the surface material 31 arranged on the outdoor side of the room is referred to as necessary. Is referred to as "outdoor surface material 31".

(Structure-Door body-Other configurations)
Further, a handle 11, a latch (not shown), and a locking device (not shown) are provided on the door end side of the door body 10. Of these, the handle 11 is for the user to open and close the door body 10, and is arranged at positions corresponding to each other on the indoor side surface of the room and the outdoor side surface of the room of the door body 10. There is. Further, the latch is for maintaining the door body 10 at a position where the opening is closed by the door body 10 (hereinafter, referred to as "opening fully closed state") regardless of whether or not the door is locked by the locking device. It is a thing. This latch is connected to the handle 11 via an interlocking mechanism (not shown) provided inside the door body 10, and the latch is connected to the door end side of the door body 10 in conjunction with the operation of the handle 11 by the user. It can be taken in and out from the side of. Thereby, in the fully closed state of the opening, the door body 10 can be maintained in the fully closed state of the opening by locking the latch to the latch receiver provided on the vertical frame on the door end side. The locking device is a device for locking the door body 10. This locking device is configured to include a dead bolt (not shown). Specifically, when the user performs a key operation from the front of the door body 10, the dead bolt is placed on the door end side of the door body 10. It can be taken in and out from the side surface, and the door body 10 can be locked by locking the dead bolt to the dead bolt receiver provided on the vertical frame on the door end side in the fully closed state of the opening.

(Structure-Hinge part)
The hinge portion 40 is for pivotally supporting the door body 10 with respect to the vertical frame on the door tail side. A plurality of hinge portions 40 are arranged side by side in the vertical direction at the end portion of the door body 10 on the door tail side at intervals of each other. Further, the hinge portion 40 is configured in the same manner as a known flag hinge, specifically, a cylindrical upper bearing 41, a rod-shaped lower shaft (not shown) that can be inserted into the upper bearing 41, and an upper bearing. An upper support piece 42 connected to 41 and a lower support piece (not shown) connected to a lower shaft are provided so that the upper bearing 41 and the lower shaft are located on the outdoor side of the room rather than the door body 10. It is provided in. The method of fixing the hinge portion 40 is arbitrary, but in the first embodiment, as shown in FIGS. 2 to 4, a mounting hole (not shown) formed in the upper support piece 42 and the outdoor side are provided. Mounting holes formed in the surface material 31 (not shown) (or mounting holes formed in the auxiliary member 33 described later (not shown)), mounting holes formed in the first heat shield 51 described later (not shown). , The mounting hole 25a shown in FIG. 5 described later and the mounting hole 28a shown in FIG. 5 described later formed in the central piece 25 of the door tail side longitudinal force bone 21 described later. The upper support piece 42 is fixed to the fixing liner 28 by the fixing tool 43. Next, the lower support piece is fixed to the door tail side vertical frame through a mounting hole (not shown) formed in the lower support piece and a mounting hole (not shown) formed in the door tail side vertical frame. Fix with a tool (not shown). Then, by inserting the lower shaft connected to the lower support piece into the upper bearing 41 connected to the upper support piece 42, the door body 10 and the door tail side vertical frame are connected via the hinge portion 40. To do.

(Structure-Details of door frame configuration)
Next, the details of the configuration of the door frame 20 will be described. Unless otherwise specified, the door tail side longitudinal force bone 21, the door tip side longitudinal force bone 22, the upper lateral force bone 23, and the lower lateral force bone 24 constituting the door frame 20 have any shape and method. , And can be manufactured from materials. In the first embodiment, each of the door tail side longitudinal force bone 21, the door tip side longitudinal force bone 22, the upper lateral force bone 23, and the lower lateral force bone 24 has a cross-sectional shape of a cross section orthogonal to its own longitudinal direction. Is formed so as to be U-shaped. Specifically, as shown in FIGS. 2, 4, and 5, the door tail side longitudinal force bone 21 is provided on the central piece 25, the indoor side piece 26 located on the indoor side of the room, and the outdoor side of the room. It has an outdoor piece 27 and a located outdoor piece 27. Further, each of the door tip side longitudinal force bone 22, the upper lateral force bone 23, and the lower lateral force bone 24 also has a central piece and a chamber located on the indoor side of the room, similarly to the door tail side longitudinal force bone 21. It has an inner piece and an outdoor piece located on the outdoor side of the room (both are not shown).

Further, the door tail side longitudinal force bone 21 is provided with a fixing liner 28 for fixing the hinge portion 40 to the door tail side longitudinal force bone 21 via a fixture 43. Here, the reason why the fixed liner 28 is provided is as follows. That is, when the fourth heat shields 54a and 54b described later are provided inside the door body 10, the central piece is compared with the case where the fourth heat shields 54a and 54b described later are not provided inside the door body 10. Since it is necessary to narrow the length (width) of the 25 in the front-rear direction, it may be difficult to secure a sufficient area for forming the mounting hole 25a for mounting the fixture 43 in the central piece 25. It was. Therefore, in order to solve such a problem, a fixed liner 28 is provided. The fixed liner 28 is formed of a long plate-like body, and specifically, the length of the fixed liner 28 in the longitudinal direction (length in the vertical direction) is at least the upper support piece of the hinge portion 40. It is formed so as to be longer than the vertical length of 42. Further, at least a part of the fixed liner 28 is housed inside the door tail side longitudinal force bone 21 via a notch 27a formed over the central piece 25 and the outdoor piece 27, and the fixed liner 28 is accommodated. The longitudinal direction is along the vertical direction, and the side surface of the fixed liner 28 is provided so as to come into contact with the central piece 25. Further, regarding the method of attaching the fixing tool 43 to the fixing liner 28, in the first embodiment, as shown in FIGS. 2 to 5, the fixing tool 43 is located on the outdoor surface material 31 side of the fixing tool 43. The fixture 43 is attached to the fixing liner 28 via a mounting hole of the outdoor surface material 31 and a mounting hole 28a of the fixing liner 28. On the other hand, among the fixtures 43, the fixture 43 located on the indoor side surface material 30 side passes through the mounting hole of the indoor side surface material 30, the mounting hole 25a of the central piece 25, and the mounting hole 28a of the fixing liner 28. It is attached to the fixed liner 28.

The materials of the door tail side longitudinal force bone 21, the door tip side longitudinal force bone 22, the upper lateral force bone 23, the lower lateral force bone 24, and the fixed liner 28 are, for example, steel materials (specifically, steel). , Stainless steel, etc.).

(Structure-heat shield structure of door body)
Next, the heat shield structure of the door body 10 will be described. When a fire breaks out on either the indoor side or the outdoor side of the room, the heat of the fire is emitted from either the indoor side or the outdoor side of the room through the door 1. It is provided with a heat shield structure for suppressing conduction to either the indoor side or the outdoor side of the room. Further, this heat shield structure includes a heat shield structure on the door tail side of the door body 10 and a heat shield structure of a portion other than the door tail side of the door body 10. Hereinafter, each of these heat shield structures will be described in sequence.

(Structure-Heat shield structure of door body-Heat shield structure on the door end side of the door body)
First, the heat shield structure on the door tail side of the door body 10 will be described. As shown in FIGS. 2 to 4, as a heat shield structure for improving the heat shield performance of the door end side portion of the door body 10, the first heat shield portion 51, the second heat shield portion 52, and the third heat shield are shielded. The heat section 53 and the fourth heat shield sections 54a and 54b are provided.

(Structure-Heat shield structure of door body-Heat shield structure on the door end side of door body-First heat shield part)
The first heat shield portion 51 heats between the door tail side portion of the door body 10 and the central piece 25 of the door tail side longitudinal force bone 21 in each of the indoor side surface material 30 and the outdoor side surface material 31. This is the first heat shield means for suppressing conduction. The first heat shield portion 51 is configured by using, for example, a known heat shield member (for example, an inorganic material having a relatively high heat shield property), is formed in a plate-like body, and is formed in a plate-like body in the vertical direction of the central piece 25. It is formed over the entire length of. Further, as shown in FIGS. 2 to 4, the first heat shield portion 51 includes a portion on the door tail side of the door body 10 in each of the indoor side surface material 30 and the outdoor side surface material 31 and the central piece 25 thereof. The door body 10 is provided so as to be sandwiched between the door tail side portion of the door body 10 and the central piece 25, and the door body 10 is provided with respect to the door tail side portion or the central piece 25. It is fixed with an adhesive or the like.

Further, regarding the length (thickness) in the left-right direction and the length (width) in the front-rear direction of the first heat shield portion 51, the door of the door body 10 in each of the indoor side surface material 30 and the outdoor side surface material 31. It can be arbitrarily set as long as it is possible to suppress heat conduction between the buttock side portion and the central piece 25. In the first embodiment, the length (thickness) of the first heat shield portion 51 in the left-right direction is the indoor side surface material 30 and the indoor side surface material 30 when a fire occurs on either the indoor side or the outdoor side of the room. A person evacuates when heat is conducted from one of the outdoor surface materials 31 to the other of the indoor surface material 30 and the outdoor surface material 31 via the first heat shield 51 and the central piece 25. The length is set so that this heat conduction can be suppressed to the extent that evacuation through the passage is not hindered. Specifically, the length required to suppress this heat conduction. However, since it may differ depending on the material of the first heat shield portion 51, it is set based on the experimental results and the like. Further, the length (width) of the first heat shield portion 51 in the front-rear direction is set to be substantially the same as or longer than the length (width) of the central piece 25 in the front-rear direction. With such a configuration, heat conduction between the door tail side portion of the door body 10 and the central piece 25 of the door tail side longitudinal force bone 21 in the indoor side surface material 30 (or the outdoor side surface material 31) is performed. Can be suppressed.

(Structure-Heat shield structure of door body-Heat shield structure on the door end side of door body-Second heat shield part)
The second heat shield 52 suppresses heat conduction between the door tail side portion of the door body 10 in the indoor surface material 30 and the door tail side portion of the door body 10 in the outdoor surface material 31. It is a second heat shield means for this purpose. As shown in FIGS. 2 to 4, the second heat shield portion 52 is an outdoor surface material arranged so as to abut against a portion of the indoor surface material 30 on the door end side of the door body 10. It is configured as a heat shield space portion provided between the door body 10 and the door end side portion of the door body 10, and is formed over the entire length of the indoor side surface material 30 (or the outdoor side surface material 31) in the vertical direction. ing.

Here, in order to configure the second heat shield portion 52 as a heat shield space portion, specifically, when the indoor side surface material 30 and the outdoor side surface material 31 are attached to the door frame 20. The indoor surface so that the tip of the door tail side of the door body 10 of the indoor surface material 30 and the tip of the door tail side of the door body 10 of the outdoor surface material 31 do not come into contact with each other. The length of the door tail side portion of the door body 10 in the material 30 and the length of the door tail side portion of the door body 10 in the outdoor surface material 31 in the front-rear direction are set.

Further, regarding the length (width) in the front-rear direction and the length (thickness) in the left-right direction of the second heat shield portion 52, the portion (or auxiliary member) of the door body 10 on the indoor side surface material 30 on the door end side. It can be arbitrarily set as long as it is possible to suppress heat conduction between 33) and the portion of the outdoor surface material 31 on the door end side of the door body 10. In the first embodiment, the length (width) of the second heat shield 52 in the front-rear direction is the indoor side surface material 30 and the room when a fire occurs on either the indoor side or the outdoor side of the room. When heat conduction is performed from one of the outer surface materials 31 to the other of the indoor surface material 30 and the outdoor surface material 31 via the second heat shield 52, a person evacuates through the evacuation passage. The length is set so that the heat conduction can be suppressed to the extent that the heat conduction is not hindered. Specifically, the length required for suppressing the heat conduction can be accurately set. As described above, it is set based on the experimental results and the like. Further, the length (thickness) of the second heat shield portion 52 in the left-right direction is set to be substantially the same as the thickness of the indoor side surface material 30 (or the outdoor side surface material 31) (or this heat conduction). The thickness may be set thinner or thicker than the thickness of the indoor side surface material 30 (or the outdoor side surface material 31) as long as the above can be suppressed. For example, when another member is interposed inside the second heat shield portion 52. May be set thinner than the thickness of the indoor side surface material 30 (or the outdoor side surface material 31). With such a configuration, heat conduction between the door tail side portion of the door body 10 of the indoor surface material 30 and the door tail side portion of the door body 10 of the outdoor surface material 31 can be suppressed.

(Structure-Heat shield structure of door body-Heat shield structure on the door end side of door body-Third heat shield part)
The third heat shield portion 53 is a third heat shield means for suppressing heat conduction between the door tail side portion of the door body 10 and the hinge portion 40 of the indoor surface material 30. As shown in FIGS. 2 to 4, the third heat shield portion 53 is formed between the door end side portion of the door body 10 and the upper support piece 42 of the hinge portion 40 in the indoor side surface material 30. It is configured as a heat shield space portion, is formed over the entire length of the upper support piece 42 in the vertical direction, and is inclined from a portion of the door body 10 on the door end side toward the upper support piece 42 (specifically). In order to cross each of the prospective direction and the finding direction).

Here, in order to configure the third heat shield portion 53 as a heat shield space portion, specifically, when the indoor side surface material 30 and the hinge portion 40 are attached to the door frame 20, the chamber A second heat shield is provided on the door end side of the door body 10 of the indoor surface material 30 so that the door end side portion of the door body 10 and the upper support piece 42 of the inner surface material 30 do not come into contact with each other. A notch 32 is formed to widen the 52 outward in the prospective direction (front-back direction). Regarding the size and installation position of the cutout portion 32, in the first embodiment, the notch portion 32 is installed in a size and installation position where the indoor side surface material 30 and the upper support piece 42 do not come into contact with each other. It is installed in an area of the indoor surface material 30 including a portion facing the upper support piece 42 and a portion in the vicinity thereof. Further, since it is assumed that the support state of the door tail side longitudinal force bone 21 and the hinge portion 40 becomes unstable due to the formation of such a notch portion 32, in the first embodiment, the door tail An auxiliary member 33 for stably supporting the lateral longitudinal force bone 21 and the hinge portion 40 is provided. The auxiliary member 33 is a long plate-like body made of steel. Specifically, the length (width) of the auxiliary member 33 in the front-rear direction is larger than the length (width) of the notch portion 32 in the front-rear direction. It is short, the vertical length (height) of the auxiliary member 33 is shorter than the vertical length (height) of the notch 32, and the horizontal length (thickness) of the auxiliary member 33 is on the indoor side. It is formed so as to be substantially the same as the thickness of the surface material 30. Further, as shown in FIGS. 2 to 4, the auxiliary member 33 includes a portion of the indoor surface material 30 on the door tail side of the door body 10 and a portion of the outdoor surface material 31 on the door tail side of the door body 10. Specifically, at least a part of the auxiliary member 33 is surrounded by the notch 32 in the area of the second heat shield 52 (hereinafter, "" It is located in the surrounding area 52a) (more specifically, it is located so as not to come into contact with the indoor side surface material 30 and the outdoor side surface material 31), and the first heat shield portion 51 is connected to the auxiliary member 33. It is installed so as to be sandwiched by the central piece 25 of the door tail side longitudinal force bone 21. With such a configuration, as in the door 201 according to the third embodiment described later, a protruding portion 34 described later is formed on a part of the outdoor surface material 31, and the protruding portion 34 is located in the surrounding region 52a. As compared with the case where the door 1 is installed as described above, the labor for processing the outdoor surface material 31 can be reduced, so that the manufacturability of the door 1 can be improved. Further, as compared with the case where the auxiliary member 33 is not provided, the door tail side longitudinal force bone 21 and the hinge portion 40 can be stably supported, so that the structural stability of the door body 10 can be improved. ..

Further, regarding the length (width) in the front-rear direction and the length (thickness) in the left-right direction of the third heat shield portion 53, the portion of the indoor surface material 30 on the door end side of the door body 10 and the upper support piece. As long as it is possible to suppress heat conduction between the 42 and the 42, it can be set arbitrarily. In the first embodiment, the length (width) in the front-rear direction and the length (thickness) in the left-right direction of the third heat shield portion 53 cause a fire on either the indoor side or the outdoor side of the room. In this case, from either the indoor surface material 30 or the outdoor surface material 31 to the other of the indoor surface material 30 and the outdoor surface material 31 via the third heat shield 53 and the upper support piece 42. When heat conduction is performed, the length is set so that this heat conduction can be suppressed to the extent that it does not prevent people from evacuating through the evacuation passage. Specifically, this heat It is set based on experimental results and the like so that the length required to suppress conduction can be set accurately. With such a configuration, heat conduction between the door end side portion of the door body 10 and the hinge portion 40 of the indoor surface material 30 can be suppressed.

(Structure-Heat shield structure of door body-Heat shield structure on the door end side of door body-4th heat shield part)
The fourth heat shield portion 54a is for suppressing heat conduction between the main side surface side (indoor side of the room) of the indoor side surface material 30 and the indoor side piece 26 of the door tail side longitudinal force bone 21. The fourth heat shield portion 54b is a mutual relationship between the main side surface side (outdoor side of the room) of the outdoor surface material 31 and the outdoor side piece 27 of the door tail side longitudinal force bone 21. It is a fourth heat shield means for suppressing heat conduction between them. The fourth heat shield means has the same function as the first heat shield means in that it suppresses heat conduction between the indoor surface material 30 and the outdoor surface material 31 and the door tail side longitudinal force bone 21. Have. Each of the fourth heat shield portions 54a and 54b is configured by using, for example, a known heat shield member, and is formed over the entire length of the indoor side piece 26 (or the outdoor side piece 27) in the vertical direction. .. Further, as shown in FIGS. 2 to 4, the fourth heat shield portion 54a is located on the indoor side of the room between the indoor side portion of the room and the indoor side piece 26 of the indoor side surface material 30. It is provided so as to be sandwiched between the portion and the indoor side piece 26, and is fixed to the indoor side portion of the room or the indoor side piece 26 with an adhesive or the like. Further, the fourth heat shield portion 54b is sandwiched between the outdoor side portion of the room and the outdoor side piece 27 of the outdoor surface material 31 by the outdoor side portion of the room and the outdoor side piece 27. It is provided so as to be fixed to the outdoor part of the room or the outdoor piece 27 with an adhesive or the like.

Further, regarding the length (thickness) in the front-rear direction and the length (width) in the left-right direction of the fourth heat shield portion 54a, the indoor side portion of the room and the indoor side piece 26 in the indoor side surface material 30 As long as it is possible to suppress heat conduction between each other, it can be set arbitrarily. In the first embodiment, the length (thickness) of the fourth heat shield portion 54a in the front-rear direction is the indoor side surface material 30 and the indoor side surface material 30 when a fire occurs on either the indoor side or the outdoor side of the room. When heat conduction is performed from one of the indoor side pieces 26 to the indoor side surface material 30 and any other of the indoor side pieces 26 via the fourth heat shield portion 54a, a person evacuates through the evacuation passage. The length is set so that this heat conduction can be suppressed to the extent that this is not hindered. Specifically, the length required to suppress this heat conduction is the fourth heat shield. Since it may differ depending on the material of the part 54a, it is set based on the experimental results and the like. Further, the length (width) of the fourth heat shield portion 54a in the left-right direction is set to be substantially the same as or longer than the length in the left-right direction of the indoor side piece 26. Further, regarding the length (thickness) in the front-rear direction and the length (width) in the left-right direction of the fourth heat-shielding portion 54b, the length (thickness) in the front-rear direction of the above-mentioned fourth heat-shielding portion 54a and the length (thickness) in the front-rear direction Similar to the length (width) in the left-right direction, the length is set so that heat conduction between the outdoor portion of the room and the outdoor piece 27 of the outdoor surface material 31 can be suppressed. There is. With such a configuration, heat conduction between the main side surface side (indoor side of the room) of the indoor side surface material 30 and the indoor side piece 26 of the door tail side longitudinal force bone 21 can be suppressed, and the room can be suppressed. It is possible to suppress heat conduction between the main side surface side (outdoor side of the room) of the outer surface material 31 and the outdoor side piece 27 of the door tail side longitudinal force bone 21.

(Structure-Heat shield structure of door body-Heat shield structure on the door end side of door body-Other structures)
In addition, other structures related to the heat shield structure on the door tail side of the door body 10 have the following features in order to further improve the heat shield performance of the door tail side portion of the door body 10. That is, regarding the shapes of the mounting holes of the outdoor surface material 31 and the mounting holes of the auxiliary member 33, in the first embodiment, the hinge portion 40, the outdoor surface material 31 and the auxiliary member 33 are respectively connected via the fixture 43. The fixture 43 is formed in a shape in which each of the outdoor surface material 31 or the auxiliary member 33 does not come into contact with each other so as to suppress heat conduction between the two. The diameter of each of these mounting holes is formed to be larger than the diameter of the fixture 43. With such a shape, it is possible to suppress heat conduction between the hinge portion 40 and each of the outdoor surface material 31 and the auxiliary member 33 via the fixture 43.

Due to the heat shield structure on the door tail side of the door body 10 as described above, when a fire breaks out on either the indoor side or the outdoor side of the room, the heat of the fire is transmitted through the door 1 of the room. Since it is possible to suppress conduction from either the indoor side or the outdoor side to either the indoor side or the outdoor side of the room, it is possible to improve the heat shielding performance of the door tail side portion of the door body 10. It becomes.

(Structure-Heat shield structure of door body-Heat shield structure of parts other than the door end side of the door body)
Next, the heat shield structure of the portion other than the door tail side of the door body 10 will be described. Shielding of parts other than the door end side portion of the door body 10 (specifically, the door end side portion of the door body 10, the upper surface side portion of the door body 10, and the lower surface side portion of the door body 10). As a heat shield structure for improving the thermal performance, the first heat shield portion, the second heat shield portion, and the pair of fourth heat shield portions in the heat shield structure on the door end side of the door body 10 are the door body 10. It is provided on the door end side portion, the upper surface side portion of the door body 10, and the lower surface side portion of the door body 10 (all are not shown). Specifically, in the door end side portion of the door body 10, the first heat shield portion is the door end side portion and the door end of the door body 10 in each of the indoor side surface material 30 and the outdoor side surface material 31. The second heat shield is provided between the central piece of the lateral longitudinal force bone 22 and the door of the door body 10 on the indoor side surface material 30 and the door of the door body 10 on the outdoor surface material 31. A pair of fourth heat shields are provided between the front side portion and the main side surface side (indoor side of the room) of the indoor side surface material 30 and the indoor side piece of the door end side longitudinal force bone 22. It is provided between each other and between the main side surface side (outdoor side of the room) of the outdoor surface material 31 and the outdoor piece of the door end side longitudinal force bone 22. Further, in the upper surface side portion of the door body 10, the first heat shield portion is mutual between the upper surface side portion of each of the indoor side surface material 30 and the outdoor side surface material 31 and the central piece of the upper lateral force bone 23. A second heat shield is provided between the upper surface side portion of the indoor surface material 30 and the upper surface side portion of the outdoor surface material 31, and a pair of fourth heat shield portions are provided. Between the main side surface side (indoor side of the room) of the indoor surface material 30 and the indoor side piece of the upper lateral force bone 23, and the main side surface side (outdoor side of the room) of the outdoor surface material 31. It is provided between the upper lateral force bone 23 and the outdoor piece of the upper lateral force bone 23. Further, in the lower surface side portion of the door body 10, the first heat shield portion is formed by the lower surface side portion of each of the indoor side surface material 30 and the outdoor side surface material 31 and the central piece of the lower lateral force bone 24. A pair of fourth heat shields are provided between each other, and a second heat shield is provided between the lower surface side portion of the indoor surface material 30 and the lower surface side portion of the outdoor surface material 31. However, between the main side surface side (indoor side of the room) of the indoor surface material 30 and the indoor side piece of the lower lateral force bone 24, and the main side surface side (outdoor side of the room) of the outdoor surface material 31. ) And the outdoor piece of the inferior lateral force bone 24. When a fire occurs on either the indoor side or the outdoor side of the room due to the heat shield structure of the part other than the door tail side of the door body 10, the heat of the fire is transmitted through the door 1. Since it is possible to suppress conduction from either the indoor side or the outdoor side of the room to either the indoor side or the outdoor side of the room, the door end side portion of the door body 10 and the upper surface of the door body 10. It is possible to improve the heat shielding performance of the side portion and the lower surface side portion of the door body 10.

(Action of heat shield structure of door body)
The operation of the heat shield structure of the door body 10 configured in this way will be described.

First, for example, when a fire breaks out in a room when the opening is fully closed, the indoor surface material 30 is heated by the heat of the fire.

In this case, a part of the heat of the fire is from the indoor surface material 30 to the door tail side longitudinal bone 21, the door end side longitudinal bone 22, the upper lateral force bone 23, and the lower lateral force bone 24, respectively. When an attempt is made to indirectly conduct the heat toward the outdoor surface material 31 via the above, the first heat shield 51 and the fourth heat shield 54a and 54b in the heat shield structure on the door tail side of the door body 10 and the door. Due to the first heat shield and the pair of fourth heat shields in the heat shield structure of the body 10 other than the door tail side, the indoor side surface material 30, the door tail side longitudinal force bone 21, and the door tip side longitudinal force Between each of the bone 22, the upper lateral force bone 23, and the lower lateral force bone 24, and between the door tail side longitudinal force bone 21, the door end side longitudinal force bone 22, the upper lateral force bone 23, and the lower lateral force bone 23. Heat conduction between each of the force bones 24 and the outdoor surface material 31 is suppressed.

Further, when another part of the heat of the fire is to be directly conducted from the indoor surface material 30 toward the outdoor surface material 31, the second shield in the heat shield structure on the door tail side of the door body 10 is used. Heat conduction between the indoor side surface material 30 and the outdoor surface material 31 is suppressed by the second heat shield in the heat shield structure of the heat portion 52 and the portion other than the door end side of the door body 10. Will be done.

Further, when another part of the heat of the fire is indirectly conducted from the indoor side surface material 30 toward the outdoor surface material 31 via the hinge portion 40, the door end side of the door body 10 is shielded. The third heat shield portion 53 in the thermal structure suppresses heat conduction between the hinge portion 40 and the indoor surface material 30.

From the above, it is possible to suppress the heat of the fire from being directly or indirectly conducted from the indoor surface material 30 toward the outdoor surface material 31, so that a person can pass through the evacuation passage at the time of the fire. It is possible to avoid being prevented from evacuating.

(effect)
As described above, according to the first embodiment, the first heat shield portion 51 and the fourth heat shield portion 51 and the fourth are provided between each of the indoor side surface material 30 and the outdoor side surface material 31 and the door tail side longitudinal force bone 21. The heat shields 54a and 54b, the door tail side portion of the door body 10 in the indoor surface material 30, and the door tail side portion of the door body 10 in the outdoor surface material 31 arranged so as to abut against the portion. A second heat shield 52 provided between the two, and a third heat shield 53 provided between the door end side portion of the door body 10 and the hinge portion 40 of the indoor surface material 30. The first heat shield portion 51, the second heat shield portion 52, the third heat shield portion 53, and the fourth heat shield portions 54a and 54b provide the indoor side surface material 30 and the hinge portion 40. It is possible to suppress heat conduction between each other, and heat conduction between at least one of the indoor side surface material 30 or the outdoor surface material 31 and the door tail side longitudinal force bone 21 and the indoor side. It is also possible to suppress heat conduction between the surface material 30 and the outdoor surface material 31, and improve the heat shielding performance of the door 1 (particularly, the heat shielding performance of the door end side portion of the door body 10). be able to. Therefore, for example, when a fire breaks out in a room of a building having a door 1, it is possible to avoid preventing a person from evacuating through an evacuation passage adjacent to the door 1.

Further, the first heat shield portion 51 and the fourth heat shield portions 54a and 54b are provided so as to be sandwiched by each of the indoor side surface material 30 and the outdoor side surface material 31 and the door tail side longitudinal force bone 21. It is a heat shield member, and the second heat shield portion 52 is between the portion of the indoor surface material 30 on the door tail side of the door body 10 and the portion of the outdoor surface material 31 on the door tail side of the door body 10. The third heat shield portion 53 is a heat shield space portion formed in between the door end side portion of the door body 10 and the hinge portion 40 of the indoor side surface material 30. Therefore, the number of parts of the door 1 can be reduced and the manufacturing cost of the door 1 can be reduced as compared with the case where the second heat shield portion 52 and the third heat shield portion 53 are heat shield members. ..

Further, an auxiliary member 33 is provided between the door tail side portion of the door body 10 of the indoor surface material 30 and the door tail side portion of the door body 10 of the outdoor surface material 31, and the first shield is provided. Since the heat portion 51 is sandwiched between the auxiliary member 33 and the door tail side longitudinal force bone 21, the door tail side longitudinal force bone 21 and the hinge portion 40 are stably supported as compared with the case where the auxiliary member 33 is not provided. This makes it possible to improve the stability of the structure of the door body 10.

Further, since the auxiliary member 33 is installed so that at least a part of the auxiliary member 33 is located in the surrounding area 52a of the second heat shield portion 52, as in the door 201 according to the third embodiment described later, the auxiliary member 33 is installed. Compared with the case where a protruding portion 34 described later is formed on a part of the outdoor surface material 31 and the protruding portion 34 is installed so as to be located in the surrounding area 52a, the indoor surface material 30 or the outdoor surface material 31 It is possible to reduce the time and effort required to process one of the doors 1 and improve the manufacturability of the door 1.

[Embodiment 2]
First, the door according to the second embodiment will be described. In the second embodiment, the first heat shield means and the third heat shield means are heat shield members, and the second heat shield means is a heat shield space portion. However, the configuration of the second embodiment is substantially the same as the configuration of the first embodiment unless otherwise specified, and the configuration substantially the same as the configuration of the first embodiment is used in the first embodiment. The same code and / or name as the one used was added as necessary, and the description thereof will be omitted.

(Constitution)
First, the configuration of the door according to the second embodiment will be described. As shown in FIGS. 6 and 7, the door 101 according to the second embodiment has substantially the same configuration as the door 1 according to the first embodiment. However, the configuration of the indoor side surface material 30 and the configuration of the heat shield structure on the door tail side of the door body 10 are devised as shown below.

(Structure-Composition of indoor surface material)
Next, the configuration of the indoor side surface material 30 will be described. The indoor side surface material 30 according to the second embodiment is configured by omitting the cutout portion 32 and the auxiliary member 33 with respect to the components of the indoor side surface material 30 according to the first embodiment. In such a configuration, the method of fixing the upper support piece 42 of the hinge portion 40 is arbitrary, but in the second embodiment, as shown in FIGS. 3 Mounting hole of heat shield 53, mounting hole of outdoor surface material 31 (or mounting hole formed in indoor surface material 30 (not shown)), mounting hole of first heat shield 51, vertical on door tail side The upper support piece 42 is fixed to the fixing liner 28 by the fixing tool 43 through the mounting hole 25a of the central piece 25 of the force bone 21 and the mounting hole 28a of the fixing liner 28.

(Structure-Structure of heat shield structure on the door tail side of the door body)
Next, the configuration of the heat shield structure on the door tail side of the door body 10 will be described. As shown in FIGS. 6 and 7, as the heat shield structure on the door tail side of the door body 10 according to the second embodiment, the first heat shield portion 51, the second heat shield portion 52, and the third heat shield portion 53, And the fourth heat shields 54a and 54b are provided. Of these, the third heat shield portion 53 is configured by using, for example, a known heat shield member, is formed in a plate shape, and is formed over substantially the entire length in the vertical direction of the upper support piece 42 of the hinge portion 40. Has been done. Further, the third heat shield portion 53 includes a portion of the indoor surface material 30 on the door tail side of the door body 10 and a portion of the outdoor surface material 31 on the door tail side of the door body 10 and an upper support piece 42. It is provided so as to be sandwiched between the two, and is fixed to each of the door tail side portions of the door body 10 or the upper support piece 42 with an adhesive or the like. Further, regarding the length (thickness) in the left-right direction and the length (width) in the front-rear direction of the third heat shield portion 53, the door of the door body 10 in the indoor side surface material 30 (or the outdoor side surface material 31). It can be arbitrarily set as long as it is possible to suppress heat conduction between the tail side portion and the upper support piece 42. In the second embodiment, the length (thickness) of the third heat shield portion 53 in the left-right direction is the indoor side surface material 30 and the indoor side surface material 30 when a fire occurs on either the indoor side or the outdoor side of the room. When heat conduction is performed from one of the outdoor surface materials 31 to the other of the indoor surface material 30 and the outdoor surface material 31 via the third heat shield 53 and the upper support piece 42, a person The length is set so that this heat conduction can be suppressed to the extent that evacuation through the evacuation passage is not hindered. Specifically, the length required to suppress this heat conduction. Since the heat shield portion 53 may differ depending on the material of the third heat shield portion 53, it is set based on the experimental results and the like. Further, the length (width) of the third heat shield portion 53 in the front-rear direction is the front-rear direction of the portion of the upper support piece 42 that overlaps the indoor side surface material 30 and the outdoor side surface material 31 along the finding direction. It is set to a length slightly shorter than the length (width) (or may be set to be substantially the same as the length (width) of the overlapping portion in the front-rear direction). With such a configuration, heat conduction can be suppressed as compared with the case where the third heat shield portion 53 is a heat shield space portion, and the heat shield performance of the door tail side portion of the door body 10 can be improved. Is possible.

(effect)
As described above, according to the second embodiment, the first heat shield portion 51 and the fourth heat shield portions 54a and 54b include the indoor side surface material 30 and the outdoor side surface material 31 and the door tail side longitudinal force bone 21. The second heat shield portion 52 is a heat shield member provided so as to be sandwiched between the door body 10 and the door end side portion of the door body 10 of the indoor surface material 30 and the door body 10 of the outdoor surface material 31. It is a heat shield space portion formed between the door tail side portion, and the third heat shield portion 53 is sandwiched by each of the indoor side surface material 30 and the outdoor side surface material 31 and the hinge portion 40. Since the heat shield member is provided as described above, heat conduction can be suppressed as compared with the case where the third heat shield portion 53 is a heat shield space portion, and the heat shield performance of the door 101 can be further improved. Is possible.

[Embodiment 3]
First, the door according to the third embodiment will be described. This third embodiment is different from the first embodiment, in which the first heat shield means is a heat shield member, and the second heat shield means and the third heat shield means are heat shield space portions. Is. However, the configuration of the third embodiment is substantially the same as the configuration of the first embodiment unless otherwise specified, and the configuration substantially the same as the configuration of the first embodiment is used in the first embodiment. The same code and / or name as the one used was added as necessary, and the description thereof will be omitted.

(Constitution)
First, the configuration of the door according to the third embodiment will be described. As shown in FIGS. 8 to 10, the door 201 according to the third embodiment has substantially the same configuration as the door 1 according to the first embodiment. However, the configuration of the indoor surface material 30, the configuration of the outdoor surface material 31, and the configuration of the heat shield structure on the door tail side of the door body 10 are devised as shown below.

(Structure-Composition of indoor surface material and outdoor surface material)
Next, the configurations of the indoor side surface material 30 and the outdoor side surface material 31 will be described. In the outdoor surface material 31 according to the third embodiment, the portion of the door tail side of the door body 10 corresponding to the notch 32 is replaced with the auxiliary member 33 according to the first embodiment on the indoor side of the room. A protruding portion 34 is formed so as to project toward the door. The protruding portion 34 is installed so as to intervene between the door tail side portion of the door body 10 of the indoor surface material 30 and the door tail side portion of the door body 10 of the outdoor surface material 31. Specifically, as shown in FIGS. 8 to 10, at least a part of the protruding portion 34 is located in the surrounding region 52a of the second heat shield portion 52, and the first heat shield portion 51 is the protruding portion 51. It is installed so as to be sandwiched between the portion 34 and the central piece 25 of the door tail side longitudinal force bone 21. Here, the shape of the protruding portion 34 is arbitrary, but in the third embodiment, the length (width) of the protruding portion 34 in the front-rear direction is the door body 10 in the protruding portion 34 and the indoor surface material 30. The length is such that a gap is formed between the protrusion and the door end, and the length (height) of the protruding portion 34 in the vertical direction is shorter than the length (height) of the notch 32 in the vertical direction. The protruding portion 34 is formed so that the length (thickness) in the left-right direction is substantially the same as the thickness of the indoor surface material 30. In this case, the method of fixing the upper support piece 42 of the hinge portion 40 is arbitrary, but in the third embodiment, as shown in FIGS. 8 to 10, the mounting holes and the outdoor surface of the upper support piece 42 are fixed. Mounting holes (specifically, a plurality of mounting holes (specifically, the mounting holes are formed in the portion) formed in the door end side portion of the door body 10 of the material 31, and a part of the plurality of mounting holes is the portion. (Formed in the protruding portion 34 of the), the mounting hole of the first heat shield 51, the mounting hole 25a of the central piece 25 in the door tail side longitudinal force bone 21, and the mounting hole 28a of the fixed liner 28. The support piece 42 is fixed to the fixing liner 28 by the fixing tool 43. With such a configuration, the door tail side longitudinal force bone 21 and the hinge portion 40 can be stably supported by the protruding portion 34 even if the auxiliary member 33 is not provided, so that the number of parts of the door 201 can be reduced. It becomes possible. Specifically, such a protruding portion 34 is formed by cutting and molding a tip portion and a portion in the vicinity thereof of the door tail side portion of the door body 10 in the outdoor surface material 31. The door.

(Structure-Structure of heat shield structure on the door tail side of the door body)
Next, the configuration of the heat shield structure on the door tail side of the door body 10 will be described. As shown in FIGS. 8 to 10, as the heat shield structure on the door tail side of the door body 10 according to the third embodiment, the first heat shield portion 51, the second heat shield portion 52, the third heat shield portion 53, And the fourth heat shields 54a and 54b are provided. Of these, the second heat shield portion 52 was formed between the door tail side portion of the door body 10 of the indoor surface material 30 and the door tail side portion of the door body 10 of the outdoor surface material 31. It is configured as a heat shield space. In particular, of the second heat shield 52, the portion corresponding to the protrusion 34 of the outdoor surface material 31 and the door end side portion of the door body 10 of the indoor surface material 30 is the third shield. Since it is arranged so as to overlap a part of the heat shield 53, this overlap portion has the functions of both the second heat shield 52 and the third heat shield 53. As a result, a part of the second heat shield 52 can also be used as the third heat shield 53 as compared with the case where the second heat shield 52 and the third heat shield 53 are arranged apart from each other. Therefore, for example, the door body 10 can be made compact.

(effect)
As described above, according to the third embodiment, the first heat shield portion 51 and the fourth heat shield portions 54a and 54b include the indoor side surface material 30 and the outdoor side surface material 31 and the door tail side longitudinal force bone 21. The second heat shield portion 52 is a heat shield member provided so as to be sandwiched between the door body 10 and the door end side portion of the door body 10 of the indoor surface material 30 and the door body 10 of the outdoor surface material 31. It is a heat shield space portion formed between the door tail side portion and the third heat shield portion 53, and the third heat shield portion 53 is a mutual portion between the door tail side portion of the door body 10 and the hinge portion 40 in the indoor side surface material 30. Since the heat shield space is formed between the doors, the door 201 is similar to the door 201 according to the first embodiment, as compared with the case where the second heat shield 52 and the third heat shield 53 are heat shield members. The number of parts can be reduced.

[III] Modifications to Each Embodiment The embodiments of the present invention have been described above, but the specific configuration and means of the present invention are the scope of the technical idea of each invention described in the claims. Can be arbitrarily modified and improved within. Hereinafter, such a modification will be described.

(About the problem to be solved and the effect of the invention)
First, the problem to be solved by the invention and the effect of the invention are not limited to the above-mentioned contents, and the present invention solves a problem not described above or an effect not described above. It can also be played, and may solve only some of the tasks described or play only some of the effects described. For example, even if the heat shielding performance of the door according to the present invention is the same as that of the conventional one, if the same degree of heat insulating performance as the conventional one can be secured by a structure different from the conventional one, the problem of the present application can be solved. There is.

(About the hinge part)
In the first to third embodiments, it has been described that the hinge portion 40 is provided so that the upper bearing 41 and the lower shaft of the hinge portion 40 are located on the outdoor side of the room with respect to the door body 10. For example, in order to prevent the hinge portion 40 from being exposed to the outdoor side of the room, the upper bearing 41 and the lower shaft of the hinge portion 40 are provided so as to be located on the indoor side of the room with respect to the door body 10. May be done. In this case, in the first embodiment, the cutout portion 32 is formed in the region of the outdoor surface material 31 that includes the portion facing the upper support piece 42 and the portion in the vicinity thereof, and the auxiliary member 33 is the auxiliary member. At least a part of 33 is located in the surrounding area 52a of the second heat shield 52, and the first heat shield 51 is sandwiched between the auxiliary member 33 and the central piece 25 of the door tail side longitudinal force bone 21. It may be installed in. Further, in the third embodiment, the cutout portion 32 is formed in a region of the outdoor surface material 31 that includes a portion facing the upper support piece 42 and a portion in the vicinity thereof, and the door body in the indoor surface material 30. The indoor side surface material 30 is formed so that the portion corresponding to the cutout portion 32 of the door tail side portion of 10 projects toward the indoor side of the room, and at least a part of the protruding portion 34 is the first. 2 The first heat shield portion 51 may be installed so as to be located in the surrounding area 52a of the heat shield portion 52 and to be sandwiched between the protruding portion 34 and the central piece 25 of the door tail side longitudinal force bone 21. ..

(About fixed liner)
In the above-described first to third embodiments, it has been explained that the fixed liner 28 is provided on the door tail side longitudinal force bone 21, but the present invention is not limited to this. For example, in the central piece 25 of the door tail side longitudinal force bone 21, when a sufficient area for forming the mounting hole 25a for mounting the fixture 43 can be secured, the fixing liner 28 is omitted and the hinge portion is provided. The 40 may be fixed to the central piece 25 via the fixture 43.

(About various heat shields in the heat shield structure on the door end side of the door body)
In the first to third embodiments, it has been described that the first heat shield section 51 and the fourth heat shield sections 54a and 54b are configured as heat shield members, but the present invention is not limited to this, and for example, reduction of manufacturing cost. In order to achieve the above, it may be configured as a combination of a heat shield member and a heat shield space portion. Specifically, each of the first heat shield portion 51 and the fourth heat shield portions 54a and 54b is configured by arranging a plurality of heat shield members side by side in the vertical direction at intervals from each other. May be good. Further, in the first to third embodiments, it has been described that the second heat shield portion 52 is configured as a heat shield space portion, but the present invention is not limited to this, and for example, in order to improve the heat shield performance, the second heat shield portion 52 is shielded. It may be configured as a heat member, or may be configured as a combination of a heat shield member and a heat shield space portion. Further, in the first to third embodiments, it has been described that the third heat shield portion 53 is composed of either a heat shield member or a heat shield space portion, but the present invention is not limited to this, and for example, the heat shield is not limited to this. It may be configured as a combination of a member and a heat shield space portion.

(1st note)
The door of the first appendix 1 is a door configured by rotatably supporting the door body by a hinge portion, and is a part of one of the two main side surfaces of the door body and the said one. A first surface material that covers a part of the side surface of the door body on the door tail side, a part of the other main side surface of the two main side surfaces of the door body, and another side surface of the door body on the door tail side. A second surface material that partially covers the door body, a support member that is inside the door body and is provided at least on the door end side of the door body, and at least one of the first surface material or the second surface material. On the other hand, the first heat shield means provided between the support member and the door end side portion of the door body in the first surface material, and the first portion arranged so as to abut against the portion. In the second heat shield means provided between the two surface materials and the door tail side portion of the door body, and in the door tail side portion of the door body or the second surface material in the first surface material. It is provided with a third heat shield means provided between at least one of the door tail side portions of the door body and the hinge portion.

The door of the first appendix 2 is the door according to the first appendix 1, and the first heat shield means is made of at least one of the first surface material or the second surface material and the support member. It is a heat shield member provided so as to be sandwiched, and the second heat shield means is a portion of the first surface material on the door end side of the door body and the door of the door body in the second surface material. It is a heat shield space portion formed between the portion on the tail side, and the third heat shield means is the portion on the door tail side of the door body in the first surface material or the second surface material. It is a heat shield space portion formed between any one of the door tail side portions of the door body and the hinge portion.

The door of the first appendix 3 is the door described in the first appendix 2, the part of the door body on the door tail side of the first surface material and the door tail side of the door body of the second surface material. An auxiliary member is provided between the two portions, and the heat shield member is sandwiched between the auxiliary member and the support member.

The door of the first appendix 4 is the door tail side of the door body in the first surface material or the door tail side of the door body in the second surface material in the door described in the first appendix 3. Formed between the door tail side portion of the door body in the first surface material and the door tail side portion of the door body in the second surface material only in one part of any one of the portions. A notch for expanding the heat-shielding space portion outward in the prospective direction was formed, and at least a part of the auxiliary member was surrounded by the notch portion in the area of the heat-shielding space portion. The auxiliary member was installed so as to be located in the surrounding area.

The door of the first appendix 5 is the door according to the first appendix 1, and the first heat shield means is sandwiched by each of the first surface material and the second surface material and the support member. The second heat shield means is a portion of the first surface material on the door tail side of the door body and a portion of the second surface material on the door tail side of the door body. It is a heat shield space portion formed between the portions, and the third heat shield means is provided so as to be sandwiched between each of the first surface material and the second surface material and the hinge portion. It is a heat shield member.

(Effect of the first appendix)
According to the door described in the first appendix 1, at least one of the first surface material and the second surface material, the first heat shield means provided between the support member, and the first surface material. The second heat shield means provided between the door end side portion of the door body and the door tail side portion of the door body in the second surface material arranged so as to abut against the said portion, and the second A third heat shield means provided between the hinge portion and at least one of the door tail side portion of the door body in the 1 surface material or the door tail side portion of the door body in the second surface material. Since the door is provided, heat is conducted between at least one of the first surface material or the second surface material and the hinge portion by the first heat shield means, the second heat shield means, and the third heat shield means. Heat conduction between the first surface material or at least one of the second surface materials and the support member, and between the first surface material and the second surface material. Heat conduction can also be suppressed, and the heat shielding performance of the door (particularly, the heat shielding performance of the part on the door end side of the door body) can be improved. Therefore, for example, when a fire breaks out in a room of a building having the door, it is possible to avoid preventing a person from evacuating through an evacuation passage adjacent to the door.

According to the door described in the first appendix 2, the first heat shield means is a heat shield member provided so as to be sandwiched between at least one of the first surface material or the second surface material and the support member. The second heat shield means is a heat shield space formed between the door tail side portion of the door body in the first surface material and the door tail side portion of the door body in the second surface material. The third heat shield means is formed between the hinge portion and either one of the door tail side portion of the door body in the first surface material or the door tail side portion of the door body in the second surface material. Since the heat shield space is provided, the number of parts of the door can be reduced and the manufacturing cost of the door can be reduced as compared with the case where the second heat shield means and the third heat shield means are heat shield members. Is possible.

According to the door described in the first appendix 3, an auxiliary member interposed between the door tail side portion of the door body in the first surface material and the door tail side portion of the door body in the second surface material. Since the heat shield member is sandwiched between the auxiliary member and the support member, the support member and the hinge portion can be stably supported as compared with the case where the auxiliary member is not provided, and the structural stability of the door body is stable. Can be increased.

According to the door described in the first appendix 4, the auxiliary member is installed so that at least a part of the auxiliary member is located in the surrounding area surrounded by the notch in the area of the heat shield space portion. Therefore, as compared with the case where a protruding portion is formed on a part of either the first surface material or the second surface material and the protruding portion is installed so as to be located in the surrounding area, the first surface material or the first surface material or the first surface material is used. It is possible to reduce the labor of processing one of the two surface materials and improve the manufacturability of the door.

According to the door described in the first appendix 5, the first heat shield means is a heat shield member provided so as to be sandwiched between each of the first surface material and the second surface material and the support member. The second heat shield means is a heat shield space portion formed between the portion of the first surface material on the door tail side of the door body and the portion of the second surface material on the door tail side of the door body. Since the third heat shield means is a heat shield member provided so as to be sandwiched between each of the first surface material and the second surface material and the hinge portion, the third heat shield means is the heat shield space portion. Compared with the case, heat conduction can be suppressed, and the heat shielding performance of the door can be further improved.

(Second appendix)
The door of the second appendix 1 is a door configured by rotatably supporting the door body by a hinge portion, and is a part of one of the two main side surfaces of the door body and the said one. A first surface material that covers a part of the side surface of the door body on the door tail side, a part of the other main side surface of the two main side surfaces of the door body, and another side surface of the door body on the door tail side. The hinge portion and at least one of the second surface material that partially covers the door body, the door tail side portion of the door body in the first surface material, or the door tail side portion of the door body in the second surface material. It is provided with a heat shield means provided between the doors and the doors.

(Effect of the second appendix)
According to the door described in the second appendix 1, at least one of the first surface material and the second surface material, and the hinge side portion of the door body in the first surface material or the door body in the second surface material. Since it is provided with a heat shield means provided between at least one of the parts on the door tail side of the door and the hinge portion, at least one of the first surface material and the second surface material is provided by the heat shield means. It is possible to suppress heat conduction between one side and the hinge portion, and it is possible to improve the heat shielding performance of the door (particularly, the heat shielding performance of the door end side portion of the door body). Therefore, for example, when a fire breaks out in a room of a building having the door, it is possible to avoid preventing a person from evacuating through an evacuation passage adjacent to the door.

1, 101, 201 Door 10 Door body 11 Handle 20 Door frame 21 Vertical force bone (door tail side vertical force bone)
22 Vertical bone (vertical bone on the door end side)
23 Lateral force bone (upper lateral force bone)
24 Lateral force bone (lower lateral force bone)
25 Central piece 25a Mounting hole 26 Indoor side piece 27 Outdoor side piece 27a Notch 28 Fixed liner 28a Mounting hole 30 Surface material (indoor side surface material, first surface material)
31 Surface material (outdoor surface material, second surface material)
32 Notch 33 Auxiliary member 34 Protruding part 40 Hinge part 41 Upper bearing 42 Upper support piece 43 Fixture 51 1st heat shield part 52 2nd heat shield 52a Surrounding area 53 3rd heat shield 54a, 54b 4th heat shield Department

Claims (2)

It is a door configured by rotatably supporting the door body by a hinge part.
A first surface material that covers a part of one of the two main side surfaces of the door body and a part of the side surface of the door body on the door end side.
A second surface material that covers a part of the other main side surface of the two main side surfaces of the door body and the other part of the side surface of the door body on the door tail side.
A notch formed on the side surface of the door body on the door tail side of the first surface material or the side surface of the door body on the door tail side of the second surface material, and the hinge portion when viewed from the finding direction. With the notch arranged so as to overlap with,
A heat shield provided between at least one of the door tail side portion of the door body in the first surface material or the door tail side portion of the door body in the second surface material and the hinge portion. Means, including a heat shield means in which a part of the heat shield means is arranged so as to be located in the notch .
The heat shield means is provided between at least one of the door tail side portion of the door body in the first surface material or the door tail side portion of the door body in the second surface material and the hinge portion. It is a heat shield space part consisting of the space of the above and the space in the notch.
The notch is formed so that the tip of the support piece of the hinge portion is located in the notch when viewed from the finding direction, and the gap between the support piece and the notch is a space between the two. ,
door. It is an auxiliary member that is interposed between the door tail side portion of the door body in the first surface material and the door tail side portion of the door body in the second surface material, and stabilizes the hinge portion. Equipped with auxiliary members to support
The hinge portion and the auxiliary member are arranged so as to overlap each other when viewed from the finding direction.
The door according to claim 1.

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