JP5369688B2 - Smoke shield layout design method - Google Patents

Description

  The present invention relates to a smoke shielding portion arrangement design method for a building space.

  In general, a closed building space on each floor of a building is partitioned by a partition wall having a height from the floor to the ceiling and divided into a plurality of rooms (see Patent Document 1). For example, a building space that has an entrance / exit in a shared corridor (hereinafter referred to as “evacuation space”) that can be evacuated outdoors, and a room that connects the entrance and exit from the room to the evacuation space is provided. There is.

By the way, if the passage is a straight line, even if a fire or other abnormality occurs in the passage or the room connected to the passage, the prospect is good, so those who are in the passage or the room connected to the passage Evacuate early and notice. However, if there is a bent part in the passage, the point beyond the bent part cannot be seen, and even if there is a change in the passage ahead or the chamber connected to the passage, it is present in the passage or chamber in front of the bent part. It is difficult for those who do it to notice, and there is a risk that the start of evacuation will be delayed.
JP 2007-334683 A

  In this way, if a fire breaks out in a place with poor visibility of the passageway, the evacuation of the occupants may be delayed, and if the smoke from the fire spreads in the building space, the occupants will be at risk from the smoke. Exposure and risk of evacuation may occur.

  The present invention has been made in view of such a conventional problem, and appropriately arranges a smoke shielding portion that prevents smoke from diffusing throughout the building space even if a fire occurs in a poorly visible place in the building space. The purpose is to provide a design method.

In order to achieve this object, the invention according to claim 1 is a method of arranging a smoke shielding part in a building space partitioned by a partition wall into a passage and a chamber having a passage entrance in the passage. In addition, in all the bent portions in the passage, a linear passage section is specified by dividing the passage, and a smoke shielding section is disposed at all the boundary portions of the passage sections. This is a part layout design method.
Here, the linear shape of the passage section means a passage shape having a good line of sight, and includes a substantially straight passage shape such as a passage having a curved outer edge portion of the passage.

According to the first aspect of the present invention, it is possible to appropriately arrange a smoke shielding portion that prevents smoke from diffusing throughout the building space even if a fire occurs in a poorly visible place in the building space. .
Since the straight passage section has good visibility, even if a fire occurs in the passage section, a person in the passage section can quickly notice the smoke from the fire and evacuate. In addition, when a fire occurs in another passage section, smoke can be prevented from flowing into the passage section by the smoke shielding portion, and the time required for fire detection and evacuation can be ensured.

Invention of Claim 2 is a smoke shielding part arrangement | positioning design method of Claim 1, Comprising: The said smoke shielding part arrange | positioned at the said boundary part of the said passage area is a fire door, It is characterized by the above-mentioned. This is a smoke shielding part arrangement design method.
According to invention of Claim 2, even if a fire generate | occur | produces in the location with bad visibility in building space, the fire door which has fireproof performance can be arrange | positioned in the appropriate position of a channel | path. This prevents smoke from diffusing throughout the building space even if the fire awareness is delayed.

The invention according to claim 3 is the smoke shielding part arrangement design method according to claim 2, wherein the fire door can pass when it is opened and closed. It is a smoke part arrangement design method.
According to invention of Claim 3, since a fire door is open at the time of a non-fire, it does not obstruct passage. In addition, in the event of a fire, it is closed and blocks smoke, but the occupant can evacuate because it is a structure that allows traffic.

Invention of Claim 4 is the smoke-shielding part arrangement | positioning design method in any one of Claims 1-3, Comprising: Each said passage area and the chamber which has a passage entrance and exit with respect to each said passage area Each of the blocks to be included is specified, and the smoke shielding portion is arranged at a portion that is a boundary portion between the block and another block and faces the room.
According to the fourth aspect of the present invention, even if a fire occurs at a place with a poor visibility in the building space, the smoke shielding part can be arranged at an appropriate position of the passage and the partition wall. This can prevent smoke from diffusing throughout the building space.

  Since the straight passage section has good visibility, even if a fire occurs in the passage section or a room connected to the passage section, a person in the passage section can quickly recognize smoke from the fire. . Also, a person in a room connected to the passage section can quickly recognize the smoke by looking out from the entrance and exit of the room. In this way, the range where the line of sight is good and can be recognized quickly is regarded as one block.

  When a fire occurs in a block, a person in the block can quickly notice the fire and evacuate. In addition, if a fire occurs outside the block, the block is surrounded by a smoke shield, so it is possible to prevent fire and smoke from flowing into the block and to ensure the time required for fire detection and evacuation. Can do.

Invention of Claim 5 is the smoke-shielding part arrangement | positioning design method in any one of Claims 1-4, Comprising: The said smoke-shielding part arrange | positioned at the said boundary part of the said block facing the said chamber is A smoke shielding part arrangement design method characterized by being a non-combustible wall made of a non-combustible material.
According to the invention of claim 5, even if a fire occurs in a place with a poor visibility in the building space and the fire awareness is delayed, by making the partition wall a non-combustible wall made of a non-combustible material, It is possible to prevent the partition wall from being burnt out and spreading smoke to other blocks.

  Invention of Claim 6 is the smoke-shielding part arrangement | positioning design method in any one of Claims 1-5, Comprising: The said channel | path is a single road, The both ends are connected to the evacuation entrance. It is a smoke shielding part arrangement design method characterized by this.

  Invention of Claim 7 is the smoke-shielding part arrangement | positioning design method in any one of Claims 1-5, Comprising: The both ends of the said passage area are connected to the said other passage area, and two or more said said The passage section is connected to an evacuation doorway, and is a smoke shielding part arrangement design method.

  Invention of Claim 8 is a smoke-shielding part arrangement | positioning design method in any one of Claims 1-5, Comprising: One end of the said 1st channel | path area is in the intermediate part of the 2nd said channel | path area. The smoke shielding part arrangement design method is characterized in that the other end of the first passage section and the both ends of the second passage section are connected to another passage section or an escape door.

  ADVANTAGE OF THE INVENTION According to this invention, even if a fire generate | occur | produces in the location with a bad view in a building space, the smoke-shielding part which prevents that a smoke spreads to the whole building space can be arrange | positioned appropriately.

=== First Embodiment ===
FIG. 1 is a plan view showing an architectural space 1 that is a target for smoke shield arrangement arrangement according to the first embodiment. As shown in the figure, the building space 1 is partitioned into a passage 10 and a chamber 20.

The passage 10 includes an evacuation entrance 14 at the boundary with the evacuation space 12 where occupants evacuate when a disaster such as a fire occurs.
A fire door 32 is provided in the passage 10. The fire door 32 is open during normal times, but closes to block smoke when a fire occurs. The fire door 32 may be opened and closed automatically upon receipt of a fire occurrence detection from an automatic fire alarm device (not shown) that senses the occurrence of a fire. Moreover, it is preferable that a small door (not shown) is provided in the fire door 32 so that even if the fire door 32 is closed, the occupants can escape by passing through the small door.

The chamber 20 includes a passage entrance 22 for connecting to the passage 10 at any location of the passage 10.
A non-combustible wall 34 made of a non-combustible material such as a gypsum board is used for the partition wall forming the chamber 20 by the procedure described in detail below.

FIG. 2 is a flowchart showing the procedure of the smoke shielding part arrangement design method of the present embodiment.
First, the linear passage sections 10A, 10B, and 10C are specified by dividing the passage 10 at a bent portion (S202). Here, the linear shape of the passage section refers to a passage shape with good visibility, and includes a substantially linear passage shape such as a passage having a curved outer edge portion of the passage.

Next, the fire doors 32 are arranged at the boundary between the passage section 10A and the passage section 10B and at the boundary between the passage section 10B and the passage section 10C (S204).
Further, a block including the passage section 10A and the chamber 20A having the passage entrance 22 with respect to each passage section 10A is specified (S206). Similarly, a block is specified for each of the passage sections 10B and 10C (S206).
And the incombustible wall 34 is arrange | positioned in the part which is the boundary part of each block and another block, and faces the chamber 20 (S208).

  According to the present embodiment, it is possible to appropriately arrange the smoke shielding portion that prevents the smoke from diffusing throughout the building space even if a fire occurs in a place with poor visibility in the building space. This can prevent smoke from diffusing throughout the building space.

  Since the straight passage section has good visibility, even if a fire occurs in the passage section or a room connected to the passage section, a person in the passage section can quickly recognize smoke from the fire. . Also, a person in a room connected to the passage section can quickly recognize the smoke by looking out from the entrance and exit of the room. In this way, the range where the line of sight is good and can be recognized quickly is regarded as one block.

  When a fire occurs in a block, a person in the block can quickly notice the fire and evacuate. In addition, if a fire occurs outside the block, the block is surrounded by a smoke shield, so it is possible to prevent fire and smoke from flowing into the block and to ensure the time required for fire detection and evacuation. Can do.

=== Other Embodiments ===
As mentioned above, although embodiment of this invention was described, this invention is not limited to this embodiment, The deformation | transformation as shown below is possible in the range which does not deviate from the summary.

  The shape of the passage in the first embodiment is a U shape, but the shape of the passage is not limited to this, and may be an L shape, a B shape, or a T shape.

  FIG. 3 is a plan view showing the building space 2 when the passage shape is L-shaped. As shown in the figure, the passage section 10A and the passage section 10B are specified at the bent portion of the passage 10, and the fire door 32 and the non-combustible wall 34 are arranged as in the first embodiment. An evacuation entrance 14 is provided at each end of the passage 10 so that the evacuation space 12 can be evacuated.

  As described above, even if the shape of the passage 10 is L-shaped, the fire door 32 and the non-combustible wall 34 can be arranged at appropriate positions, thereby preventing the spread of smoke and fire in the building space 2. it can.

  FIG. 4 is a plan view showing the building space 3 when the shape of the passage 10 is a T-shaped branch. As shown in the figure, the passage section 10A and the passage section 10B are specified at the bent portion of the passage 10, and the fire door 32 and the non-combustible wall 34 are arranged as in the first embodiment. In addition, evacuation entrances 14 are respectively provided at the end portions of the three passages 10 so that the evacuation space 12 can be evacuated.

  Thus, even if there is a branch in the passage 10, the fire door 32 and the non-combustible wall 34 can be arranged at appropriate positions, so that it is possible to prevent smoke and fire from diffusing in the building space 3.

  FIG. 5 is a plan view showing the building space 4 in the case where the shape of the passage 10 is a circular-shaped square shape. As shown in the figure, the passage section 10A, the passage section 10B, the passage section 10C, and the passage section 10D are specified at the bent portion of the passage 10, and the fire door 32 and the noncombustible wall 34 are arranged as in the first embodiment. The passage section 10 </ b> B and the passage section 10 </ b> D are each provided with an evacuation entrance 14 such as an emergency staircase so that the evacuation space 12 can be evacuated.

  As described above, even if the passage 10 is a circulation type, the fire door 32 and the non-combustible wall 34 can be disposed at appropriate positions, so that it is possible to prevent the smoke and fire from diffusing in the building space 4.

  Furthermore, even if it is the path | route shape of these combinations, the fire door 32 and the nonflammable wall 34 can be arrange | positioned in an appropriate position, and it can prevent that smoke and a fire spread in a building space.

  FIG. 6A is a plan view showing an example in which a certain chamber 20 has an entrance / exit with respect to different passage sections 10. That is, each chamber 20 in the first embodiment has one passage entrance / exit 22, but has a respective entrance / exit for each of the passage sections 10A and 10B as in the chamber 20BX shown in FIG. May be. In this case, a non-combustible wall 34 is arranged on the boundary wall between the chamber 20BX and the passage section 10A. A fire door 32 is disposed at the entrance to the passage section 10A of the chamber 20BX.

  Thus, even when the chamber 20 has an entrance / exit with respect to each of the plurality of passage sections 10, the fire door 32 and the incombustible wall 34 can be disposed at appropriate positions, so that the entire building space 4 is provided. Smoke and fire can be prevented from spreading.

  FIG. 6B is a plan view showing another example in which a certain chamber 20 has an entrance / exit with respect to different passage sections 10. That is, the chamber 20AX has an inlet / outlet with respect to the passage section 10A and the passage section 10B as shown in the figure, but a non-combustible wall 34 is arranged on the wall at the boundary between the chamber 20AX and the passage section 10B. A fire door 32 may be disposed at the entrance to the 20AX passage section 10B. As described above, the chamber 20 having an entrance / exit for each of the plurality of passage sections 10 belongs to one of the blocks of the passage section 10, and a fire door 32 and a noncombustible wall are provided at the boundary with the other passage sections 10. 34 is arranged. In S206 of the flowchart of FIG. 2, the chambers 20 each having an entrance / exit for each of the plurality of passage sections 10 are specified to belong to any one of the passage section 10 blocks.

It is a top view which shows the building space 1 used as the object of smoke shielding part arrangement | positioning design by 1st Embodiment. It is a flowchart which shows the procedure of the smoke-shielding part arrangement | positioning design method of this embodiment. It is a top view which shows the building space 2 in case a channel | path shape is L shape. It is a top view which shows the building space 3 in case a passage shape is T shape with a branch. It is a top view which shows the building space 4 in case a channel | path shape is a circulation-type square shape. It is a top view which shows the example in which the certain chamber 20 has an entrance / exit with respect to the different channel | path area 10, respectively. It is a top view which shows another example in which the certain chamber 20 has an entrance / exit with respect to the different passage area 10, respectively.

1, 2, 3, 4 Architectural space 10 Passage 12 Evacuation space 14 Evacuation entrance 20 Room 22 Passage entrance 32 Fire door (smoke shield)
34 Noncombustible wall (smoke shield)

Claims (8)

It is a method of disposing a smoke shielding part in a building space partitioned by a partition wall into a passage and a room having a passage entrance in the passage,
In all the bent portions in the passage, a linear passage section is specified by dividing the passage,
A smoke shielding part arrangement design method, wherein smoke shielding parts are arranged at all boundary parts of each passage section. A smoke shielding part arrangement design method according to claim 1,
The smoke shielding part arrangement design method, wherein the smoke shielding part arranged at the boundary part of the passage section is a fire door. A smoke shielding part arrangement design method according to claim 2,
A smoke shielding part arrangement design method, wherein the fire door can pass when the fire door is open and closed. The smoke shielding part arrangement design method according to any one of claims 1 to 3,
Identify each block including each passage section and a chamber having a passage entrance for each passage section,
A smoke shielding part arrangement design method, wherein a smoke shielding part is arranged at a boundary part between the block and another block and facing a room. A smoke shielding part arrangement design method according to claim 4,
The smoke shielding part arrangement design method, wherein the smoke shielding part arranged at the boundary part of the block facing the chamber is a non-combustible wall made of a non-combustible material. A smoke shielding part arrangement design method according to any one of claims 1 to 5,
The said passage is a single road, The both ends are connected to the evacuation entrance, The smoke-shielding part arrangement | positioning design method characterized by the above-mentioned. A smoke shielding part arrangement design method according to any one of claims 1 to 5,
Both ends of the passage section are connected to another passage section,
Two or more of the passage sections are connected to an evacuation doorway. A smoke shielding part arrangement design method according to any one of claims 1 to 5,
One end of the first passage section is connected to an intermediate portion of the second passage section,
The other end of the first passage section and the both ends of the second passage section are connected to another passage section or an evacuation entrance.