JP3675790B2 - Fire door device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a fire door device that is provided at an entrance of a building, an entrance of an elevator, and the like and prevents smoke and the like from flowing out of the entrance at the time of a fire.
[0002]
[Prior art]
Conventionally, as a fire door device, for example, a link member that can swing around a horizontal axis parallel to the horizontal length direction of the fire door is provided at the upper end of the fire door, and a hanger with a door wheel is provided via this link member. The doors provided on the hangers are placed on the rails on the doorway side so that the fire doors can slide on the rails, and when the fire doors slide, the doors are separated from the frames provided at the doorways. A guide roller that abuts the guide rail provided on the guide rail is provided, and the guide rail is provided with a recess into which the guide roller is fitted when the fire door is closed, so that the fire door is kept airtight with respect to the entrance / exit. Those are known (for example, see Patent Document 1).
[0003]
[Patent Document 1]
Japanese Utility Model Publication No. 61-148352
[0004]
[Problems to be solved by the invention]
However, in this fire door device, the structure is complicated because the fire door is held in an airtight state with respect to the doorway by pulling the fire door to the doorway side using a swingable link member or the like. was there.
[0005]
Therefore, the present invention solves the above-described problems, and provides a fire door device that can hold the fire door in an airtight state with respect to the doorway with a simple structure without drawing the fire door toward the doorway. It is the purpose.
[0006]
[Means for Solving the Problems]
In order to solve the above-mentioned problem, the fire door device according to claim 1 of the present invention is such that the door is closed by a door whose upper end is slidably hanged by a hanger, and the four doors are closed when the door is closed. In the fire door apparatus, the periphery of which is configured to be kept airtight by an airtight member, a long opening is provided at the lower end of an airtight box that houses the hanger, and the upper end of the door is the opening of the opening. A support member is provided at a position where the hanger is positioned in a state where the door is closed at a lower end of a frame provided with a rail on which a door wheel provided on an upper portion of the hanger is movably mounted. The supporting member is vertically movable by a first fixing plate attached to the lower end of the frame, a second fixing plate fixed to the first fixing plate, and the first fixing plate and the second fixing plate. Pinching The movable plate and a tension spring capable of adjusting the spring force for urging the movable plate upward, and an airtight member that hermetically seals the vicinity of the upper end of the door is supported by the lower end of the movable plate, The movable plate is provided with a cam that contacts the roller provided on the hanger when the door is closed, and the roller provided on the hanger contacts the cam when the door is closed. The airtight member that descends against the spring force of the tension spring and is supported by the lower end of the movable plate is a gap between the front side or rear side near the upper end of the door and the front end or rear end of the opening. It is characterized by being configured to close the door. In the fire door device according to claim 2 of the present invention, the doorway is closed by a door whose upper end is slidably hung by a hanger, and in the state where each door is closed, the four peripheral portions of the door are airtight members. In the fire door device configured to be kept airtight by the above, a long opening is provided at the lower end of the airtight box that houses the hanger so that the upper end of the door is positioned in the vicinity of the opening. And a support member is provided at a position where the hanger is located in a state where the door is closed at a lower end of a frame provided with a rail on which the door wheel provided on the hanger is movably mounted. The member includes a first fixed plate attached to the lower end of the frame, a second fixed plate fixed to the first fixed plate, and a movable plate sandwiched between the first fixed plate and the second fixed plate so as to be vertically movable. And this And a tension spring that can adjust the spring force for biasing the movable plate downward, and an airtight member that hermetically seals the vicinity of the upper end of the door is supported by the lower end of the movable plate and is provided on the hanger. A roller that abuts on the movable plate is provided on the movable plate so that the lowering of the roller is regulated by the guide plate, and the roller provided on the movable plate falls into the recess of the guide plate when the door is closed. The movable plate urged downward by the tension spring is lowered, and the airtight member supported by the lower end of the movable plate is the front side or rear side near the upper end portion of the door and the front end portion or rear end of the opening portion. It is characterized in that it is configured to close the gap between the two parts.
[0007]
According to the above configuration, in the fire door apparatus in which the door is closed by the door whose upper end is slidably hung by the hanger, the airtight member that seals the vicinity of the upper end of the door is lowered when the door is closed. Since the gap between the front side or rear side in the vicinity of the upper end of the door and the front end or rear end of the opening is closed, the opening of the box with an airtight structure can be achieved simply by lowering the airtight member. The door can be kept airtight with respect to the part.
[0024]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, fire door devices according to embodiments of the present invention will be described in detail with reference to the drawings.
[0025]
The fire door apparatus in Embodiment 1 of this invention is demonstrated based on FIGS. This fire door device is provided, for example, on the elevator hall side of the entrance / exit of the elevator.
[0026]
In this fire door device, as shown in FIGS. 1 and 2, the fire door is formed of a single sliding door 1 that slides to one side.
Further, as shown in FIG. 3, a box 2 for storing a hanger 14 or the like is provided above the elevator side, and the lower end portion of the box 2 has a long shape having a width larger than the thickness of the sliding door 1. The opening 3 is formed. The lower end of the box 2, the door-end side frame portion 4 provided on the door-end side, the door-end side frame portion 5 connected to the door pocket 11, and the lower frame portion 6 have four sides. An enclosed doorway E is formed.
[0027]
And, at the lower end portion of the back plate 7 of the box 2, a long first projecting piece portion 7a protruding horizontally from the back plate 7 toward the front side of the box 2, that is, the front plate 9 side, is formed. The front end side of the first projecting piece 7a is bent upward to form a long vertical projecting piece 7c, and the upper end of the first projecting piece 7a is bent horizontally toward the back plate 7 to be long. A second protruding piece 7b is formed. Further, a long vertical projecting piece portion 9c facing the vertical projecting piece portion 7c is formed at the lower end portion of the front plate 9. That is, the opening 3 is formed between the vertical protruding piece 7c and the vertical protruding piece 9c. 1 and 2 show a state where the front plate 9 is removed.
[0028]
As shown in FIG. 3, the sliding door 1 is suspended from the hanger 14 so that the upper end thereof is substantially at the same level as the second projecting piece 7 b of the back plate 7, that is, at substantially the same height, and the opening It slides to the left and right with a predetermined interval between the parts 3. The sliding door 1 is held in a state in which the doorway E is opened in normal times.
[0029]
When the sliding door 1 is closed, the gap between the rear side at the upper end of the sliding door 1 and the second projecting piece 7b of the back plate 7, that is, the rear side at the upper end of the sliding door 1 and the opening 3 The gap between the rear end portion is configured to be closed from above by a long airtight member 16 made of rubber or the like.
[0030]
The hanger 14 is attached to the door end side and the door bottom side of the sliding door 1, and the door wheel 15 provided on the top of the hanger 14 is placed on a rail 13 formed on the frame 12 so as to be able to run.
[0031]
The airtight member 16 is supported by a support member 17 provided at the lower end of the frame 12 at a position where the hanger 14 is located when the sliding door 1 is closed.
[0032]
As shown in FIG. 7, the support member 17 includes a first fixing plate 18 attached to the lower end of the frame 12, a second fixing plate 20 fixed to the first fixing plate 18, and a first fixing plate. 18 and the second fixed plate 20 are provided with a movable plate 19 sandwiched so as to move up and down, a tension spring 21, and a holding member 16a provided at the lower end of the movable plate 19 and directly holding the airtight member 16. The airtight member 16 is supported at the lower ends of the two movable plates 19 by a holding member 16a.
[0033]
As shown in FIG. 9, the first fixed plate 18 has two screw holes 18a at the top and bottom, and the movable plate 19 has two long holes 19a at the top and bottom, as shown in FIG. As shown in FIG. 11, the second fixing plate 20 is formed with two screw holes 20a on the top and bottom, respectively.
[0034]
As shown in FIGS. 7 and 8, the second fixing plate 20 is fixed to the first fixing plate 18 by inserting the screws 22 into the screw holes 18a, the long holes 19a, and the screw holes 20a. The movable plate 19 is sandwiched between the first fixed plate 18 and the second fixed plate 20, and the movable plate 19 is attached to move up and down by moving the elongated hole 19a of the movable plate 19 up and down along the screw 22. ing.
[0035]
Further, as shown in FIGS. 7 and 8, a spring mounting plate 23 is attached to the first fixed plate 18 by a screw 24 on the surface opposite to the surface facing the movable plate 19. A spring mounting portion 19b is formed so as to be positioned below the mounting plate 23. The upper end side of the tension spring 21 is mounted on the spring mounting 23 via a screw 25, and the spring of the movable plate 19 is mounted. The lower end side of the tension spring 21 is attached to the attachment portion 19b via a screw 26. Accordingly, the movable plate 19 is biased upward by the spring force of the tension spring 21.
[0036]
Adjustment of the spring force of the tension spring 21 is performed by moving the spring mounting plate 23 up and down along the screw 24 inserted through a long hole 23 a formed in the spring mounting plate 23.
[0037]
Further, as shown in FIG. 3, each hanger 14 is provided with a roller 28 that rotates around the axis of the horizontal shaft 27, and the roller 28 of the hanger 14 on the door bottom side is positioned at a high position. The roller 28 of the front hanger 14 is provided at a low position.
[0038]
Further, the movable plate 19 of each support member 17 has a cam 29 with which each roller 28 abuts when the sliding door 1 is closed by a screw 30 via a bracket 29b so as to be positioned on the hanger 14 side. The cam 29 of the movable plate 19 that is fixed and close to the door-end side frame portion 5 is movable toward the door-end side frame portion 4 at a high position corresponding to the roller 28 of the hanger 14 on the door-end side. The cam 29 of the plate 19 is provided at a position where the roller 28 of the hanger 14 on the door end side is low. An inclined portion 29a that is inclined downward toward the door pocket 11 is formed at the upper end portion of each cam 29. When the sliding door 1 is closed, the rollers 28 come into contact with the inclined portion 29a. Yes.
[0039]
Accordingly, as shown in FIG. 4, when the sliding door 1 is closed, the rollers 28 provided on the hangers 14 come into contact with the inclined portions 29a of the cams 29 fixed to the movable plate 19, thereby The movable plate 19 urged upward by the spring force of the spring 21 descends in conjunction with the cam 29, and the airtight member 16 supported on the lower end of the movable plate 19 via the holding member 16 a is attached to the back plate 7. It is pressed against the gap between the second projecting piece 7b and the rear side at the upper end of the sliding door 1, and the gap between them is closed from above.
[0040]
3, 4, and 7, for convenience, members provided on the two hangers 14 or the two support members 17 are shown on the one hanger 14 or the one support member 17.
[0041]
And when the sliding door 1 is closed as shown in FIG. 5, the airtight member 32 provided in the up-down direction along the step part 31 formed in the surface side of the door tip of the sliding door 1 is the door-end side frame. The gap between the door-end side of the sliding door 1 and the door-end side frame 4 is closed by abutting against the recess 33 formed in the portion 4. Moreover, the airtight member 35 provided in the up-down direction along the step part 34 formed on the back side of the door butt of the sliding door 1 abuts on the side surface part 36 formed near the door pocket 11 of the door butt side frame 5. As a result, the gap between the door butt side of the sliding door 1 and the door butt side frame 5 is closed.
[0042]
Furthermore, as shown in FIG. 6, when the sliding door 1 is closed, the airtight member 37 provided along the lower end of the sliding door 1 at the doorway E comes into contact with the lower frame portion 6, thereby lowering the lower end of the sliding door 1. And the lower frame portion 5 are closed.
[0043]
Thereby, the airtight state of the sliding door 1 is maintained with respect to the entrance / exit E side.
The lower frame portion 6 is provided with a support roller 38 that rotates horizontally around the axis of the vertical axis in the vicinity of the door bottom side heel frame portion 5, and a guide groove 39 formed along the lower end of the sliding door 1. The support roller 38 is inserted into the sliding door 1 to support the sliding door 1 from below and the sliding door 1 slides.
[0044]
As shown in FIGS. 1 and 12, the door-side hanger 14 is provided with a main body 41 of a braking device 40 having a constant braking force.
As shown in FIG. 13, a rotating body 43 that is attached to a horizontal shaft 42 and rotates is accommodated in the main body portion 41, and a viscous fluid (not shown) is enclosed in the main body portion 41 so as to surround the rotating body 43. Z). The horizontal shaft 42 is supported by a bearing 44 inside the main body 41, and one end of the horizontal shaft 42 protrudes outward from the main body 41, and one end of the horizontal shaft 42 protrudes outward from the main body 41. Further, a gear 46 is attached via a one-way clutch 45.
[0045]
When the sliding door 1 is closed, the gear 46 rotates with the tooth surface attached to the frame 12 parallel to the rail 13 facing downward and meshing with a horizontal long rack 47. It is configured to transmit to the rotating body 43. As a result, the gear 46 of the braking device 40 meshes with the rack 47 while the sliding door 1 is being closed, a braking force is applied to the movement of the sliding door 1 in the closing direction, and the sliding door 1 is prevented from closing suddenly. The
[0046]
Further, an automatic closing device 50 using a spring spring as a drive source is provided on the door end side frame 4 side of the frame 12, and a wire (not shown) drawn from the automatic closing device 50 is a door of the sliding door 1. It is connected to the hanger 14 provided on the front side, and the sliding door 1 is automatically closed by the automatic closing device 50.
[0047]
Further, an open holding device 51 is supported on the frame 12 above the hanger 14 provided on the door end side of the sliding door 1, and a hanger 14 provided on the door tip side of the sliding door 1 is provided below the open holding device 51. A stop lever (not shown) that engages with the engagement fitting 52 having a concave upper end is provided, and the stop lever is engaged with the engagement fitting 52 when the sliding door 1 is opened. It is operated by an internal drive. Further, when a fire occurs, smoke detectors, heat detectors, etc., not shown in the figure work, so that the drive device of the open holding device 51 works so that the stop lever is detached from the engagement fitting 52.
[0048]
According to the above configuration, the rollers 28 are provided on the hangers 14, the cams 29 are provided on the movable plates 19 that are biased upward by the tension springs 21, and the rollers 28 are moved to the cams 29 when the sliding door 1 is closed. Since the movable plate 19 is lowered by contact, the airtight member 16 supported by the movable plate 19 is located between the rear side of the upper end portion of the sliding door 1 and the second projecting piece portion 7b of the back plate 7. It is pressed against the gap, and this gap, that is, the gap between the rear side at the upper end of the sliding door 1 and the rear end of the opening 3 can be reliably closed.
[0049]
Further, the gap between the door end side of the sliding door 1 and the door end side frame portion 4 is formed by the airtight member 32, and the gap between the door bottom side of the sliding door 1 and the door end side frame portion 5 is formed by the airtight member 35. The gap between the lower end of the sliding door 1 and the lower frame portion 6 can be closed by the airtight member 37, respectively.
[0050]
Next, the fire door apparatus in Embodiment 2 of this invention is demonstrated based on FIGS. This fire door device is provided, for example, on the elevator hall side of the elevator door as in the first embodiment. In addition, about what has the same function as the said Embodiment 1, the same code | symbol is attached | subjected and description is abbreviate | omitted.
[0051]
In this fire door device, as shown in FIGS. 14 to 15, the fire door is composed of two sliding doors 1 </ b> A and 1 </ b> B, and is formed as a double sliding door that slides to the left and right sides. The doorway E is surrounded by the lower end portion of the box 2, both side frame portions 8, 8, and the lower frame portion 6.
[0052]
In this fire door device, hangers 14 are provided at the upper ends of the sliding door 1A and the sliding door 1B on the door end side and the door butt side, respectively. A door wheel 15 is attached to the hanger 14, and the door wheel 15 is mounted on the rail 13. The sliding door 1A and the sliding door 1B are slid left and right.
[0053]
And on both sides of the central part of the entrance / exit E, the second projecting piece part 7b of the back plate 7 and the sliding door 1A, at the lower end of the frame 12 at the position where each hanger 14 is located when the sliding doors 1A, 1B are closed. Two support members 17 for supporting the long airtight member 16 for closing the gap between the upper end of 1B and the rear side are provided.
[0054]
As shown in FIG. 16, the support member 17 includes a first fixing plate 61 attached to the lower end of the frame 12, a second fixing plate 63 fixed to the first fixing plate 61, and a first fixing plate. A movable plate 62 sandwiched between the first fixed plate 63 and the second fixed plate 63, a tension spring 21, and a holding member 16a that is provided at the lower end of the movable plate 62 and directly holds the airtight member 16. The airtight member 16 is supported at the lower ends of the two movable plates 62 by the holding member 16a.
[0055]
As shown in FIG. 22, the first fixed plate 61 has two screw holes 61a at the top and bottom, and the movable plate 62 has two long holes 62a at the top and bottom, as shown in FIG. As shown in FIG. 24, two screw holes 63a are formed in the second fixing plate 63 in the vertical direction.
[0056]
20 and 21, the second fixing plate 63 is fixed to the first fixing plate 61 by inserting the screws 22 into the screw holes 61a, the long holes 62a, and the screw holes 63a. The movable plate 62 is sandwiched between the first fixed plate 61 and the second fixed plate 63, and the movable plate 62 is attached so as to move up and down by moving the elongated hole 62a of the movable plate 62 up and down along the screw 22. ing.
[0057]
Further, as shown in FIGS. 21 and 23, the movable plate 62 is formed with a spring mounting portion 62b at the center in the length direction, and the lower portion of the second fixed plate 63 is shown in FIG. As shown in FIGS. 20 and 21, the upper end side of the tension spring 21 is attached to the spring mounting portion 62 b of the movable plate 62 positioned above as shown in FIGS. The lower end side of the tension spring 21 is attached to the spring mounting member 64 of the second fixing plate 63 positioned below by a screw 26. Thereby, the movable plate 62 is urged downward by the spring force of the tension spring 21.
[0058]
A bolt 65 is inserted from below into a notch 63c provided in a horizontal projecting piece 63b formed at the lower end of the second fixing plate 63 and screwed into the spring mounting member 64, and its upper end is fixed to the second fixing plate 63b. It is screwed into a bolt receiving portion 66 attached to the plate 63, and by rotating the bolt 65 in a predetermined direction, the spring attachment member 64 is moved up and down to adjust the spring force of the tension spring 21.
[0059]
Each movable plate 62 has a horizontal shaft 27 attached to a hole 62c of the movable plate 62 through a long hole 63d formed in the second fixed plate 63. The roller 28 which rotates is provided. Thus, the roller 28 moves up and down in conjunction with the movable plate 62. The roller 28 of the movable plate 62 on the sliding door 1A side is provided at a high position, and the roller 28 of the movable plate 62 on the sliding door 1B side is provided at a low position.
[0060]
A long guide plate that supports the roller 28 from below is provided on the hanger 14 on the door end side and the door bottom side of the sliding door 1A via a rack 47 that meshes with the gear 46 of the braking device 40 shown in FIG. 67, and a guide plate 67 is similarly attached to the door end side and the door bottom side of the sliding door 1B. The guide plate 67 attached to the hanger 14 on the door end side of the sliding door 1A is at a high position corresponding to the roller 28 of the movable plate 62 on the sliding door 1A side, and the guide plate 67 attached to the door tip side of the sliding door 1B is It is provided at a low position corresponding to the roller 28 of the movable plate 62 on the 1B side.
[0061]
Thereby, when the sliding doors 1 </ b> A and 1 </ b> B slide, the lowering of the roller 28 is restricted by the guide plate 67. Further, each guide plate 67 is formed with a stepped recess 67a at the rear end of the sliding door 1A and sliding door 1B in the closing direction, and when the sliding door 1A and sliding door 1B are closed, the rollers 28 Fall into the recess 67a.
[0062]
Accordingly, when the sliding door 1A and the sliding door 1B are closed, the roller 28 provided on the movable plate 62 urged downward by the tension spring 21 falls into the recess 67a of the guide plate 67, so that FIG. As shown, the movable plate 62 urged downward by the tension spring 21 is lowered, and the airtight member 16 is located at the rear side of the upper end of the sliding door 1A and the sliding door 1B and the second protruding piece 7b of the back plate 7. And the gap between them is closed by the airtight member 16.
[0063]
Further, as shown in FIG. 18, stepped portions 70 are formed on the side surfaces of the sliding doors 1 </ b> A and 1 </ b> B along which the sliding doors 1 </ b> A and 1 </ b> B abut each other. The airtight member 71 is provided, and when the sliding door 1A and the sliding door 1B are closed, the gap between the sliding door 1A and the sliding door 1B is closed by the airtight member 71. Moreover, the airtight member 35 provided in the up-down direction along the step part 34 formed in the back surface side of the door butt of the sliding door 1A and the sliding door 1B is contact | abutted to the side part 36 formed near the door pocket 11 of the eaves frame part 8, respectively. By doing so, the gap between the door bottom side of the sliding door 1A and the sliding door 1B and the eaves frame portion 8 is closed.
[0064]
Further, as shown in FIG. 19, when the sliding door 1 </ b> A and the sliding door 1 </ b> B are closed, the airtight member 37 provided along the lower end of the sliding door 1 </ b> A and the sliding door 1 </ b> B contacts the lower frame portion 6. Thus, the gap between the lower end portion of the door 1A and the sliding door 1B and the lower frame portion 6 is closed.
[0065]
Thereby, the airtight state of the sliding door 1A and the sliding door 1B is maintained with respect to the doorway E side.
16, 17, and 20, for convenience, members provided on the two hangers 14 or the two support members 17 are shown on the one hanger 14 or the one support member 17.
[0066]
As shown in FIG. 25, the braking device 40 is attached to the frame 12 via a bracket 72 in the box 2.
The rack 47 that meshes with the gear 46 of the braking device 40 is attached to the hanger 14 on the door end side of the sliding door 1A and the sliding door 1B as described above. Then, the tooth surface of the rack 47 is attached to the door hanger 14 of the sliding door 1A and the door butt side so as to engage with the upper side of the gear 46, while the door tip side and the door butt of the sliding door 1B are attached. The tooth surface of the rack 47 is attached to the side hanger 14 so as to mesh with the lower side of the gear 46. Thereby, interference of both racks is prevented when the sliding door 1A and the sliding door 1B are closed or in the closed state.
[0067]
Further, the wire of the automatic closing device 50 is connected only to one sliding door, for example, the hanger 14 on the door end side of the sliding door 1A, and the driving force of the automatic closing device 50 is the rack 47 provided on the sliding door 1A side, and the braking device 40. Is transmitted to the sliding door 1B side through the gear 46 and the rack 47 of the sliding door 1B. Accordingly, the sliding door 1A and the sliding door 1B are opened and closed in conjunction with each other.
[0068]
According to the above configuration, the roller 28 provided on the movable plate 62 urged downward by the tension spring 21 is urged downward by the tension spring 21 by dropping into the recess 67 a of the guide plate 67. The movable plate 62 is lowered, and the airtight member 16 is pressed against the gap between the rear side of the upper end of the sliding door 1A and the sliding door 1B and the second projecting piece portion 7b of the back plate 7, that is, the gap of the sliding door 1 The gap between the rear side at the upper end and the rear end of the opening 3 can be reliably closed.
[0069]
Further, since the movable plate 62 is urged downward by the tension spring 21, the spring force urging the movable plate 62 can be easily adjusted.
Further, since the movable plate 62 is urged downward by the tension spring 21 and the lowering of the movable plate 62 is restricted by the guide plate 67, the movable plate 62 naturally falls when this restriction is released. The airtight member 16 can be pressed against the gap with a relatively small force. Further, since the airtight member 16 can be pressed with a relatively small force, the airtight member 16 is not excessively deformed.
[0070]
Further, the gap between the sliding door 1A and the sliding door 1B on the side of the tip of the sliding door is airtight due to the airtight members 71 and 71. The gaps between the lower ends of the sliding door 1 </ b> A and the sliding door 1 </ b> B and the lower frame portion 6 can be closed by the airtight members 37, respectively.
[0071]
In each of the embodiments, the gap between the upper end of the sliding door 1, 1 </ b> A or 1 </ b> B and the second projecting piece 7 b of the back plate 7 is closed by the airtight member 16. The sliding door 1 and the first protruding piece 7a may be closed by the airtight member 16 without forming the protruding piece 7b and the vertical protruding piece 7c. Further, the airtight member 16 may close the gap between the front side of the upper end of the sliding door 1, 1 </ b> A or 1 </ b> B and the front end of the opening 3.
[0072]
Next, the fire door apparatus in Embodiment 3 of this invention is demonstrated based on FIGS. In addition, about what has the same function as the said Embodiment 1, the same code | symbol is attached | subjected and description is abbreviate | omitted. Also, illustrations of parts common to the first embodiment are omitted.
[0073]
In this fire door device, the airtight member 16 is rotatably supported at the lower ends of the two movable plates 19 in the first embodiment shown in FIGS. Further, the second projecting piece 7 b in the first embodiment is not formed at the lower end of the box 2. Furthermore, the sliding door 1 is hung on the hanger 14 so that the height position of the upper end is lower than the upper end of the vertical projecting piece 7c. Other configurations are the same as those in the first embodiment.
[0074]
A mounting piece 73 is provided at the lower end of each movable plate 19, and brackets 74 are erected on the upper surface of the first projecting piece portion 7a at positions corresponding to the movable plates 19, respectively. A base end portion 75 of 74 is bent to the back plate 7 side and fixed to the back plate 7 by screws.
[0075]
One end of an arm 76 having a substantially L-shaped cross section is pivotally supported by each mounting piece 73 by inserting the first connecting pin 77 through the long hole 76a, and the other end of the arm 76 is supported by each bracket 74. The second connection pin 78 is pivotally supported. Then, the airtight member 16 is attached to the arm 76 by press-fitting the attachment portion 79 formed on one end side of each arm 76 into a slit portion (not shown) formed in the long airtight member 16. ing. The hermetic member 16 has a square cross section.
[0076]
Thereby, as each movable plate 19 descends, the arm 76 rotates in a predetermined direction (P direction) around the second connecting pin 78, and the airtight member 16 descends while rotating. .
[0077]
In the above configuration, in the state where the sliding door 1 is opened, as shown in FIG. 27, the airtight member 16 is maintained in a posture that is inclined downward toward the front plate 9 side, and on the front plate 9 side of the vertical protrusion 7c. It is in contact with the top edge of the side. When the sliding door 1 is closed, the arm 76 is rotated in the P direction as the movable plate 19 is lowered, and accordingly, the airtight member 16 is lowered while rotating in the P direction. And in the state which the sliding door 1 was closed, as shown in FIG. 29, while the airtight member 16 is pressed on the side surface by the side of the front plate 9 of the vertical protrusion 7c, it is pressed on the rear side in the upper end part of the sliding door 1. Thus, the gap between the vertical projecting piece 7c and the rear side at the upper end of the sliding door 1 is closed.
[0078]
According to the above configuration, since the arm 76 is rotatably provided at the lower end of the movable plate 19 in the fire door composed of the single sliding door 1, the airtight member 16 supported by the arm 76 descends while rotating, While pressing against the side surface of the projecting piece 7c on the front plate 9 side, it is pressed against the rear side of the upper end of the sliding door 1, and the gap between the rear side of the upper end of the sliding door 1 and the vertical protruding piece 7c, ie, the sliding door It is possible to reliably close the gap between the rear side of the upper end of 1 and the rear end of the opening 3.
[0079]
Next, the fire door apparatus in Embodiment 4 of this invention is demonstrated based on FIGS. In addition, what has the same function as the said Embodiment 2 attaches | subjects the same code | symbol, and abbreviate | omits description. Also, illustrations of parts common to the second embodiment are omitted.
[0080]
In this fire door device, in the second embodiment shown in FIGS. 14 to 25, the airtight member 16 is rotatably supported at the lower ends of the two movable plates 62 as in the third embodiment. It is. Moreover, the sliding door 1A and the sliding door 1B are each suspended from the hanger 14 so that the height position of the upper end thereof is lower than the upper end of the vertical projecting piece 7c. Other configurations are the same as those in the second embodiment.
[0081]
A mounting piece 73 is provided at the lower end of each movable plate 62, and brackets 74 are erected on the upper surface of the first projecting piece portion 7a at positions corresponding to the movable plates 62, respectively. A base end portion 75 of 74 is bent to the back plate 7 side and fixed to the back plate 7 by screws.
[0082]
One end of an arm 76 having a substantially L-shaped cross section is pivotally supported by each mounting piece 73 by inserting the first connecting pin 77 through the long hole 76a, and the other end of the arm 76 is supported by each bracket 74. The second connection pin 78 is pivotally supported. Then, the airtight member 16 is attached to the arm 76 by press-fitting the attachment portion 79 formed on one end side of each arm 76 into a slit portion (not shown) formed in the long airtight member 16. ing.
[0083]
Thus, as each movable plate 62 descends, the arm 76 rotates in a predetermined direction (P direction) about the second connecting pin 78, and the airtight member 16 descends while rotating. .
[0084]
In the above configuration, when the sliding doors 1A and 1B are opened, as shown in FIG. 31, the airtight member 16 is maintained in a posture inclined downward toward the front plate 9, and the front plate 9 of the vertical projecting piece 7c. It is in contact with the upper edge of the side surface. When the sliding doors 1A and 1B are closed, the arm 76 rotates in the P direction as the movable plate 62 descends, and the airtight member 16 descends while rotating in the P direction. In the state where the sliding doors 1A and 1B are closed, as shown in FIG. 33, the airtight member 16 is pressed against the side surface on the front plate 9 side of the vertical projecting piece 7c and at the upper end of the sliding doors 1A and 1B. By pressing against the rear side, the gap between the vertical projecting piece 7c and the rear side at the upper end of the sliding doors 1A, 1B is closed.
[0085]
According to the above configuration, since the arm 76 is rotatably provided at the lower end of the movable plate 62 in the fire door composed of the two sliding doors 1A and 1B, the airtight member 16 supported by the arm 76 descends while rotating. The vertical protrusion 7c is pressed against the side surface of the front plate 9 side, and is pressed against the rear side of the upper ends of the sliding doors 1A and 1B, and the rear side of the upper ends of the sliding doors 1A and 1B and the vertical protruding piece 7c. The gap between them, that is, the gap between the rear side of the upper ends of the sliding doors 1A and 1B and the rear end of the opening 3 can be reliably closed.
[0086]
In the third and fourth embodiments, the gap between the rear side of the upper end of the sliding door 1, 1A or 1B and the rear end of the opening 3 is closed by the airtight member 16, but the sliding door 1, 1A Alternatively, the airtight member 16 may close the gap between the front side of the upper end portion of 1B and the front end portion of the opening 3.
[0087]
Next, a fire door device according to Embodiment 5 of the present invention will be described with reference to FIGS. In addition, what has the same function as the said Embodiment 2 attaches | subjects the same code | symbol, and abbreviate | omits description. Also, illustrations of parts common to the second embodiment are omitted.
[0088]
The fire door device is configured such that the shape of the lower end portion of the box 2 and the height position of the upper ends of the sliding doors 1A and 1B are different from those of the second embodiment, and the upper end portion and the opening 3 of the sliding doors 1A and 1B. The mechanism for closing the gap between the two is different from that of the second embodiment. That is, the sliding doors 1 </ b> A and 1 </ b> B are suspended from the hanger 14 so that the height position of the upper end is lower than the upper end of the vertical protrusion 7 c of the back plate 7. An airtight member 16 supported by the rotator 82 is disposed below the projecting piece 7a, and the airtight member 16 is rotated so that a gap is formed between the vertical projecting piece 7c and the upper ends of the sliding doors 1A and 1B. Is configured to be closed from below. Other configurations, for example, an automatic closing device 50 and a braking device 40 for self-closing two sliding doors 1A and 1B are configured in the same manner as in the second embodiment.
[0089]
Below the first projecting piece portion 7a, a rotating body 82 rotatably supported by a horizontal shaft 81 is disposed along the lateral length direction of the first projecting piece portion 7a. On the door pocket 11 side, each is supported by a shaft support member 83 fixed to the lower surface of the first projecting piece 7a with a screw. The rotating body 82 is provided with two long airtight members 16 projecting from the rotating body 82 at a predetermined angular interval, for example, approximately 90 degrees, along the outer circumferential direction. Each of the airtight members 16 is formed in a U-shaped cross section and has a sharp tip.
[0090]
Further, the rotating body 82 is urged in a predetermined direction (R direction) by the winding springs 84 attached to both ends of the horizontal shaft 81, and the restriction protrusions 85 respectively provided on both ends of the rotating body 82 are provided. The rotation in the R direction is regulated by abutting on the regulation pin 86 provided on each shaft support member 83. When the sliding doors 1A, 1B are opened, the regulation projection 85 is formed by the regulation pin. 86, the tip of one of the airtight members 16 protrudes with a slight gap on the lower surface side of the first projecting piece 7a, and the tip of the other airtight member 16 of the sliding doors 1A, 1B. It protrudes with a slight gap on the rear surface side at the upper end.
[0091]
In the vicinity of both ends of the rotating body 82, rollers 88 rotatably supported by the vertical shaft 87 are respectively provided downward, and the sliding doors 1A and 1B are respectively provided at the upper part of the rear end of the sliding doors 1A and 1B. A guide member 89 having an inclined surface 89a inclined downward toward the closing direction is provided.
[0092]
Thereby, when the sliding doors 1A and 1B are closed, the roller 88 comes into contact with the inclined surface 89a, the rotating body 82 rotates, and the airtight members 16 rotate accordingly, and the vertical projecting piece 7c It is comprised so that it may be pressed against a lower surface and the rear surface in the upper end part of sliding door 1A, 1B.
[0093]
Similarly to the second embodiment, an airtight member 71 is provided on the side surface of the sliding doors 1A and 1B, an airtight member 35 is provided on the rear end of the sliding doors 1A and 1B, and lower ends of the sliding doors 1A and 1B. Each is provided with an airtight member 35.
[0094]
In the above-described configuration, when the automatic closing device 50 or the like is operated and the sliding doors 1A and 1B are closed, each roller 88 comes into contact with the inclined surface 89a of each guide member 89, so that the rotating body 82 becomes the winding spring 84. The airtight member 16 rotates in a predetermined direction (S direction) against the spring force. When the sliding doors 1A and 1B are closed, the tip of one airtight member 16 is pressed against the lower surface of the first projecting piece 7a, and the tip of the other airtight member 16 is the upper end of the sliding doors 1A and 1B. It is pressed against the rear surface of the part.
[0095]
According to the above configuration, in the fire door composed of the two sliding doors 1A and 1B, the two airtight members 16 and the roller 88 are provided on the rotating body 82 disposed below the first projecting piece 7a. Since the sliding doors 1A and 1B are provided with the guide member 89 having the inclined surface 89a, the two airtight members 16 are rotated together with the rotating body 82 in a predetermined direction by the roller 88 coming into contact with the inclined surface 89a. Each is pressed against the lower surface of the first projecting piece 7a and the rear surface of the upper end of the sliding doors 1A and 1B, and the gap between the rear surface of the upper end of the sliding doors 1A and 1B and the lower surface of the first projecting piece 7a, that is, the sliding door 1A. The gap between the rear surface at the upper end portion of 1B and the lower surface of the rear end portion can be reliably closed in the opening 3.
[0096]
In the fifth embodiment, the airtight member 16 causes the gap between the rear surface at the upper end of the sliding doors 1A and 1B and the lower surface of the first projecting piece 7a, that is, the rear surface and the opening 3 at the upper end of the sliding doors 1A and 1B. Although the gap between the lower surface of the rear end portion is closed, the gap between the front surface at the upper end portion of the sliding doors 1A and 1B and the lower surface of the front end portion of the opening 3 can also be closed.
[0097]
In the fifth embodiment, the case where the fire door is composed of the two sliding doors 1A and 1B has been described. However, the sliding door is configured of the airtight member 16 supported by the rotating body 82 in the fifth embodiment. The configuration for closing the gap between the rear surface of the upper end portion and the lower surface of the first projecting piece portion 7a can also be applied to the case where the fire door is composed of a single sliding door. The same effect as 5.
[0098]
In each of the above embodiments, an example in which the opening 3 having a width larger than the thickness of the sliding door is formed at the lower end of the airtight box 2 that stores the hanger 14 and the like is shown. A long opening having a narrow width so that only 14 can slide is formed, and the lower end of the hanger 14 is protruded downward from the opening to suspend the upper end of the sliding door. Is provided with an airtight member 16 supported by a rotating body 82 similar to that of the fifth embodiment, and the airtight member 16 provides a front surface or a rear surface in the vicinity of the upper end of the sliding door and a front end lower surface or a rear end lower surface of the opening. It is also possible to close the gap between them.
[0099]
In addition, the fire door apparatus of this invention can be provided in a normal channel | path other than the entrance / exit of an elevator.
[0100]
【The invention's effect】
As described above, according to the present invention, in the fire door device that closes the doorway, the door can be kept airtight with respect to the opening of the airtight box simply by lowering the airtight member. . Moreover, since it has a simple structure, it can be provided at a low cost.
[Brief description of the drawings]
FIG. 1 is a front view showing an open state of a fire door device according to Embodiment 1 of the present invention.
FIG. 2 is a front view showing a closed state of the fire door device.
FIG. 3 is a side cross-sectional view showing an open state of the fire door device.
FIG. 4 is a side sectional view showing a closed state of the fire door device.
FIG. 5 is a top sectional view showing a closed state of the fire door device.
FIG. 6 is a side sectional view showing a closed state of the fire door device.
FIG. 7 is a side view showing a support member of the fire door device.
FIG. 8 is a front view showing a support member of the fire door device.
FIG. 9 shows a first fixing plate of the fire door device, wherein (a) is a side view, (b) is a front view, and (c) is a top view.
FIG. 10 shows a movable plate of the fire door device, wherein (a) is a side view, (b) is a top view, and (c) is a front view.
FIG. 11 shows a second fixing plate of the fire door device, wherein (a) is a side view, (b) is a top view, and (c) is a front view.
FIG. 12 is a side cross-sectional view showing a mounting state of the braking device of the fire door device.
FIG. 13 is a cross-sectional view showing a braking device of the fire door device.
FIG. 14 is a front view showing an open state of a fire door device according to Embodiment 2 of the present invention.
FIG. 15 is a front view showing a closed state of the fire door device.
FIG. 16 is a side sectional view showing an open state of the fire door device.
FIG. 17 is a side sectional view showing a closed state of the fire door device.
FIG. 18 is a top sectional view showing a closed state of the fire door device.
FIG. 19 is a side sectional view showing a closed state of the fire door device.
FIG. 20 is a side view showing a support member of the fire door device.
FIG. 21 is a front view showing a support member of the fire door apparatus.
FIG. 22 shows a first fixing plate of the fire door device, wherein (a) is a side view, (b) is a front view, and (c) is a top view.
FIG. 23 shows a movable plate of the fire door device, wherein (a) is a side view, (b) is a top view, and (c) is a front view.
FIG. 24 shows a second fixing plate of the fire door device, wherein (a) is a side view, (b) is a top view, and (c) is a front view.
FIG. 25 is a side cross-sectional view showing a mounting state of the braking device of the fire door device.
FIG. 26 is a schematic front view showing an open state of the fire door apparatus according to Embodiment 3 of the present invention.
FIG. 27 is a schematic side sectional view showing an open state of the fire door device.
FIG. 28 is a schematic front view showing a closed state of the fire door device.
FIG. 29 is a schematic side sectional view showing a closed state of the fire door device.
FIG. 30 is a schematic front view showing an open state of the fire door apparatus according to Embodiment 4 of the present invention.
FIG. 31 is a schematic side sectional view showing an open state of the fire door device.
FIG. 32 is a schematic front view showing a closed state of the fire door device.
FIG. 33 is a schematic side sectional view showing a closed state of the fire door device.
FIG. 34 is a schematic front view showing an open state of the fire door apparatus according to Embodiment 5 of the present invention.
FIG. 35 is a schematic plan view seen from below showing an open state of the fire door device.
36 is a side sectional view taken along line XX of FIG. 34. FIG.
37 is a side sectional view taken along line YY in FIG. 34. FIG.
FIG. 38 is a schematic front view showing a closed state of the fire door device.
FIG. 39 is a schematic plan view seen from below showing the closed state of the fire door device.
40 is a side sectional view of FIG. 38. FIG.
41 is a side sectional view of FIG. 38. FIG.
[Explanation of symbols]
1, 1A, 1B Sliding door
2 boxes
3 openings
4 Toe side frame
5 Tojiri side frame
6 Lower frame
7 Back plate
7a First protrusion
7b Second protrusion
7c Vertical protrusion
8 Hook frame
11 Door pouch
12 frames
13 rails
14 Hanger
15 doors
16 Airtight member
16a Holding member
17 Support member
18 First fixed plate
19 Movable plate
20 Second fixing plate
21 Tension spring
25, 26 screw
28 Laura
29 cams
32, 35, 37 Airtight member
40 Braking device
41 Body
46 gears
47 racks
61 First fixing plate
62 Movable plate
63 Second fixed plate
67 Guide plate
67a hollow
71 Airtight member
73 Mounting plate
74 Bracket
76 arms
81 horizontal axis
82 Rotating body
83 Shaft support member
88 Laura
89 Guide members
E doorway

Claims (2)

In the fire door apparatus configured to close the doorway by a door whose upper end is slidably hung by a hanger, and in a state where the door is closed, the four peripheral parts of the door are kept airtight by an airtight member.
At the lower end of the airtight box that houses the hanger, a long opening is provided,
The upper end of the door is configured to be located in the vicinity of the opening,
A support member is provided at a position where the hanger is located in a state where the door is closed at a lower end of a frame provided with a rail on which a door wheel provided on an upper portion of the hanger is movably mounted.
The support member is sandwiched between the first fixed plate attached to the lower end of the frame, the second fixed plate fixed to the first fixed plate, and the first fixed plate and the second fixed plate so as to be movable up and down. A movable plate, and a tension spring capable of adjusting the spring force for biasing the movable plate upward,
An airtight member that hermetically seals the vicinity of the upper end of the door is supported by the lower end of the movable plate,
A cam that contacts the roller provided on the hanger in a state where the door is closed is provided on the movable plate,
When the door is closed, the roller provided on the hanger comes into contact with the cam so that the movable plate descends against the spring force of the tension spring, and the airtight member supported by the lower end of the movable plate is the door. A fire door device characterized by being configured to close a gap between a front side or a rear side in the vicinity of the upper end of the opening and a front end or a rear end of the opening. In the fire door device configured to close the doorway by the doors whose upper ends are slidably hung by the hangers, and to keep the four peripheral parts of the doors airtight by the airtight members in the state where each door is closed,
At the lower end of the airtight box that houses the hanger , a long opening is provided,
The upper end of the door is configured to be located in the vicinity of the opening,
A support member is provided at a position where the hanger is located in a state where the door is closed at a lower end of a frame provided with a rail on which a door wheel provided on an upper portion of the hanger is movably mounted.
The support member is sandwiched between the first fixed plate attached to the lower end of the frame, the second fixed plate fixed to the first fixed plate, and the first fixed plate and the second fixed plate so as to be movable up and down. A movable plate and a tension spring capable of adjusting the spring force for biasing the movable plate downward;
An airtight member that hermetically seals the vicinity of the upper end of the door is supported by the lower end of the movable plate,
A roller that abuts on a guide plate provided on the hanger is provided on the movable plate, and the lowering of the roller is restricted by the guide plate,
An airtight member supported by the lower end of the movable plate as the roller provided on the movable plate falls in the recess of the guide plate when the door is closed and the movable plate urged downward by the tension spring is lowered. Is configured to close a gap between the front side or rear side near the upper end of the door and the front end or rear end of the opening.

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