JP4027533B2 - Continuously mounted shutters for buildings - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a continuous-type building shutter having a plurality of winding portions arranged in the axial direction, and can be used, for example, as a fire prevention shutter for fire prevention and smoke prevention.
[0002]
[Background]
The shutter for fire prevention and smoke prevention, which is a shutter for buildings, is installed in the building for the fire prevention section of the building, and is taken out from the winding part placed in the space behind the ceiling and wound by the shutter curtain. Disaster prevention zone is formed. The fire protection section is required to have a large span so that a large indoor space can be secured in the building. For this reason, the span that is opened and closed by the disaster prevention shutter must also be increased.
[0003]
An example of a shutter for disaster prevention that can realize such a large span is that a plurality of winding portions are arranged in parallel in the axial direction by rotating the forward and reverse rotation of the shutter curtain to wind up and wind up the shutter curtain. The winding part is arranged in a misaligned manner so that a part of these winding parts is overlapped with each other.
[0004]
A specific structure that can be considered as such a continuous-type disaster prevention shutter is that the two misalignment directions of two winding portions adjacent to each other are horizontal, and two guide rollers are arranged between these winding portions. The refractory sheets that are drawn out from the respective winding portions and form the shutter curtain are guided downward by these guide rollers, and the respective refractory sheets are fed out from the overlapping portions of the two winding portions. It is set as the structure which pays out from a wind-up part, overlapping the opposite end parts.
[0005]
[Problems to be solved by the invention]
However, in the continuous-type disaster prevention shutter having such a structure, a guide roller is disposed between the winding portions in order to overlap the opposing ends of the refractory sheets fed from the winding portions adjacent to each other. Therefore, a plurality of winding sections and guide rollers must be arranged in the ceiling space of the building. According to this, many members are needed for assembling the shutter for disaster prevention, and there arises a problem that the structure of the entire shutter for disaster prevention becomes complicated.
[0006]
An object of the present invention is to connect the opposite end portions of the shutter curtains that are fed out from the winding units adjacent to each other as they are, so that the structure can be simplified. There is a place to provide a shutter for a building.
[0007]
[Means for Solving the Problems]
The continuous building type shutter according to the present invention has a plurality of winding portions arranged in parallel in the axial direction, and two winding portions adjacent to each other while the shutter curtain is fed out by rotating forward and reverse. However, a part of these winding parts is arranged as an overlapping part and is displaced from each other, and a shutter for a continuous building type in which opposed ends of the shutter curtains fed out from these winding parts are overlapped with each other. In the above, the direction of the positional deviation is a vertical direction.
[0008]
According to this series-equipped building shutter, since the position shift direction of the two winding parts, which are partly arranged in an overlapping manner, is the vertical direction, these winding parts are arranged in the vertical direction. Then, the position where the shutter curtain is extended from one winding part is shifted in the thickness direction of the shutter curtain by the thickness of the shutter curtain or smaller than the position where the shutter curtain is extended from the other winding part. As a result, each shutter curtain can be fed out from the take-up portion while these opposing end portions are overlapped with each other.
[0009]
This unwinding can be realized without providing two guide rollers for guiding each shutter curtain downward between two winding portions adjacent to each other, thereby simplifying the overall structure. it can.
[0010]
In the above, the two winding portions adjacent to each other may be disposed so that the position cannot be changed. However, at least one of these winding portions may be positionally adjustable in the thickness direction of the shutter curtain. More preferred.
[0011]
If it does in this way, the operation | work which overlap | superposes the opposing edge parts of the shutter curtain extended | stretched from these winding parts can be performed reliably, and it becomes possible to extend | stretch shutter shutters in the continuous attachment state without a clearance gap.
[0012]
Arbitrary configurations can be adopted to make the position of at least one winding part adjustable in the thickness direction of the shutter curtain. For example, a bolt and a lock nut may be used, or a feed screw may be used. .
[0013]
Moreover, in order to support the edge part of each winding part, as long as it is the structure which can extend | stretch a shutter curtain as predetermined, arbitrary structures are employable according to the relationship between a winding part and a building frame.
[0014]
For example, when the building frame exists on the side opposite to the shutter curtain feeding side of the winding unit, the supporting members that support the respective end portions on the overlapping portion side of the two winding units adjacent to each other. Both are attached to the building frame existing on the side opposite to the shutter curtain feed-out side of the winding part.
[0015]
In addition, when the building frame is present on the same side as the shutter curtain feeding side of the winding unit, among the supporting members that support the respective end portions on the overlapping portion side of the two winding units adjacent to each other, A support member that supports the end of the upper winding unit is attached to the building frame that is on the same side as the shutter curtain feed-out side of the winding unit, and the support member that supports the end of the lower winding unit is installed on the upper side. You may couple | bond with the support member of this winding part in the opposite side to the shutter curtain delivery side.
[0016]
If it does in this way, the support member which supports the edge part of a lower winding part will not obstruct the shutter curtain extended | stretched from an upper winding part, but can perform the drawing-out and winding of this shutter curtain without trouble.
[0017]
In addition, when the building frame exists on the same side as the shutter curtain feeding side of the winding unit and above the upper winding unit, the respective end portions on the overlapping portion side of the two adjacent winding units Of the supporting members to be supported, the supporting member that supports the end of the upper winding unit is attached to the building frame existing on the same side as the shutter curtain feeding side of the winding unit, and the end of the lower winding unit You may attach the support member which supports to the building frame which exists above the upper winding part.
[0018]
Also by this, the support member that supports the end of the lower winding unit does not interfere with the shutter curtain that is fed out from the upper winding unit, and the shutter curtain can be fed and wound without any trouble. .
[0019]
The present invention as described above is generally used for opening and closing the opening of a disaster prevention shutter arranged for fire prevention and smoke prevention in a disaster prevention section of a building, an entrance of a building, an opening of a window, etc. Applicable to building shutters. The shutter curtain of the latter building shutter may be formed of slats, may be formed of panels, may be formed of sheets, and is formed of pipes connected to each other via links. It may also be a combination of these.
[0020]
In addition, when the present invention is applied to a disaster prevention shutter, the shutter curtain may be formed of a fire-resistant sheet, or may be formed of a metal material other than cloth, such as a slat, Moreover, what was formed combining these may be used. In addition, for shutter curtains in which fireproof sheets are used at least in part, reinforcing members such as intermediate rails may be provided on the fireproof sheets, and, for example, turnable sheets are provided with fire resistance. By providing it in the seat portion, an exit port that can pass through the shutter curtain in the event of an emergency such as a fire may be provided.
[0021]
In addition, the maximum extension length of the shutter curtain extended from the winding unit may be the length from the ceiling to the floor, and it is necessary to stop the movement of smoke moving along the ceiling, such as a smoke-proof banner. It can be as short as possible.
[0022]
Further, the building shutter according to the present invention may be a multistage stop type building shutter capable of stopping the shutter curtain at a plurality of locations in the opening and closing direction. Further, the building shutter according to the present invention may be of a type in which the shutter curtain is fed out from the winding unit by its own weight, and the winding unit is rotated by a driving means such as a motor or a manual handle. The shutter curtain may be drawn out by the above, or the shutter curtain may be drawn out by pulling out the shutter curtain directly by gripping a part of the shutter curtain or by using a tool such as a hook bar. .
[0023]
Further, the moving direction of the shutter curtain that is fed out and wound up from the winding unit may be the vertical direction, the horizontal direction, or an oblique direction that forms an angle with respect to the vertical direction.
[0024]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is a longitudinal sectional view of a building showing the entire continuous building shutter according to this embodiment. This building shutter is a disaster prevention shutter 1 installed for a fire prevention section of a building. In the ceiling space 3 above the ceiling 2, three winding portions 4 to 6 formed by a winding shaft are arranged in parallel in the axial direction, and between two winding portions adjacent to each other. The winding portions 4 and 6 on both sides are arranged on the upper side and on the lower side in the central winding portion 5, respectively. These winding parts 4 to 6 are arranged to be displaced in the vertical direction.
[0025]
2 is a cross-sectional view taken along the line II-II of FIG. 1, FIG. 3 is a perspective view showing the overlapping portion of the winding portions 4 and 5 from the back, and FIG. 4 is the overlapping portion of the winding portions 5 and 6 from the back. It is the shown perspective view. The respective ends of the winding portions 4 and 5 adjacent to each other shown in FIG. 3 are rotatably supported by brackets 7 and 8 and are adjacent to each other shown in FIG. The respective end portions of the winding portions 5 and 6 on the overlapping portion side are rotatably supported by brackets 9 and 10. The remaining end portions of the winding portions 4 and 6 shown in FIG. 1 are rotatably supported by brackets 11 and 12. These brackets 7 to 12 which are support members for supporting the ends of the winding portions 4 to 6 are attached to a falling wall 13 which is a building frame in the ceiling back space 3 shown in FIG.
[0026]
As shown in FIG. 3, an opening / closing machine 14 is attached to the bracket 8, and this opening / closing machine 14 is a combination of a motor and a brake. Two sprockets 15 and 16 are attached to the drive shaft of the motor, and one of the sprockets 15 is connected to a sprocket 17 coupled to an end of the winding unit 5 on the bracket 8 side via a chain 18, The other sprocket 16 is connected via a chain 21 to a sprocket 20 coupled to an end portion of the transmission shaft 19 installed between the brackets 7 and 8 on the bracket 8 side. A sprocket 22 is attached to the end of the transmission shaft 19 on the bracket 7 side, and the sprocket 22 is connected to a sprocket 23 coupled to the end of the winding unit 4 on the bracket 7 side via a chain 24. .
[0027]
As shown in FIG. 4, a sprocket 25 is attached to the end of the winding unit 5 on the bracket 9 side. The sprocket 25 is connected to the bracket 9 side of the transmission shaft 26 laid between the brackets 9 and 10. A sprocket 27 connected to the end is connected via a chain 28. A sprocket 29 is attached to an end of the transmission shaft 26 on the bracket 10 side, and the sprocket 29 is connected to a sprocket 30 coupled to an end of the winding unit 6 on the bracket 10 side via a chain 31.
[0028]
Therefore, the driving force of the motor of the opening / closing machine 14 is transmitted to the winding unit 5 by the sprocket 15, the chain 18, and the sprocket 17 of FIG. 3, and the sprocket 16, the chain 21, the sprocket 20, the transmission shaft 19, and the sprocket 22. , The chain 24 and the sprocket 23, and is also transmitted to the winding unit 4, and the winding unit 5, the sprocket 25, the chain 28, the sprocket 27, the transmission shaft 26, the sprocket 29, the chain 31, and the sprocket 30 of FIG. Also transmitted to the part 6, these winding parts 4-6 always rotate simultaneously in the same direction.
[0029]
Further, by setting the small diameter sprockets 15, 16, 20, 22, 27, 29 to the same diameter and the large diameter sprockets 17, 23, 25, 30 to the same diameter, all the winding parts 4 to 6 are always kept. Can be rotated at the same speed.
[0030]
As shown in FIG. 1, fire-resistant sheets 32 to 34 that form a shutter curtain are wound around the winding parts 4 to 6, and each of the winding parts 4 to 6 passes through the lintel 35 provided on the ceiling 2 shown in FIG. 2. The seat plates 36 to 38 shown in FIG. 1 are attached to the lower ends of the fireproof sheets 32 to 34, and the normal fireproof sheets 32 to 34 have the seat plates 36 to 38 of the lintel 35. It is in the state wound by the winding parts 4-6 until it reaches the height position.
[0031]
When a fire is detected, flame or smoke is detected by a sensor (not shown), and when a signal from this sensor is input to the control device of the switch 14, the brake of the switch 14 is released by the signal from the control device, thereby the fireproof sheet. 32 to 34 are fed and lowered while the winding portions 4 to 6 are rotated forward by their own weight including the seat plates 36 to 38. When the motor of the switch 14 is driven by a switch operation (not shown), the refractory sheets 32 to 34 are wound around the winding units 4 to 6 and lifted by the reverse rotation of the winding units 4 to 6. Such extension and winding of the fireproof sheets 32 to 34 are performed while the outer ends of the fireproof sheets 32 and 34 on both sides are guided by the guide rails 40 provided on the left and right walls 39 in FIG.
[0032]
In the above embodiment, the winding portions 4 and 5 are overlapped portions 41 in which parts of the brackets 7 and 8 shown in FIG. 3 are overlapped with each other. 4 is an overlapping portion 42 in which parts on the bracket 9 and 10 side overlap each other. These overlapping portions 41 and 42 are formed by arranging the winding portions 4 to 6 arranged in parallel in the axial direction so as to be displaced in the vertical direction, and the winding portions 4 and 6 and the winding portion 5 are arranged. By accurately setting the positional relationship in the thickness direction of the refractory sheets 32 to 34, the overlapping portions 41 allow the opposing end portions 32A and 33B of the refractory sheets 32 and 33 fed out from the winding portions 4 and 5 to overlap each other. The opposed end portions 33A and 34B of the fireproof sheets 33 and 34 fed from the winding portions 5 and 6 are overlapped by the overlapping portion 42.
[0033]
For this reason, the take-up portions 4 to 6 are unwound and wound while the opposing end portions 32A and 33B are overlapped and the opposing end portions 33A and 34B are overlapped, and the seat plates 36 to 38 are shown in FIG. When the refractory sheets 32 to 34 are fed out until reaching the floor surface 43 of the building shown, the refractory sheets 32 and 33, 33 and 34 are in a closely overlapped state, thereby blocking flames and smoke. .
[0034]
In addition, by setting the winding amount and the sheet thickness so that the winding diameters of the refractory sheets 32 to 34 in the winding units 4 to 6 that simultaneously rotate at the same speed as described above are always the same, respectively. The unwinding speed and the winding speed of the refractory sheets 32 to 34 from the winding sections 4 to 6 are the same, whereby the refractory sheets 32 to 34 are rubbed with each other at the overlapped portions. Without unwinding and winding.
[0035]
As described above, in the present embodiment, overlapping the facing end portions 32A and 33B and the facing end portions 33A and 34B of the fireproof sheets 32 to 34 is the winding portions 4 and 5, 5 and 6 adjacent to each other. Is positioned by shifting the position of the two winding parts adjacent to each other in the vertical direction, and the two winding parts adjacent to each other are displaced in the horizontal direction, and fire resistance is delivered from each winding part between these winding parts. Since the structure is not provided with two guide rollers for guiding the sheet downward, according to the present embodiment, the two guide rollers can be omitted, so that the number of parts to be used can be reduced and the structure can be simplified. In addition, it is possible to simplify the assembling work of the disaster prevention shutter 1 by carrying necessary parts into the ceiling space 3.
[0036]
Further, as shown for brackets 7 and 8 in FIG. 2, brackets 7 and 8 that support respective end portions on the overlapping portion 41 side of winding portions 4 and 5 that are adjacent to each other, and overlapping portions of winding portions 5 and 6. The brackets 9 and 10 that support the respective end portions on the 42 side are on the falling wall 13 of the building frame existing on the side B opposite to the side A that feeds out the fireproof sheets 32 to 34 in the winding portions 4 to 6. The brackets 8 and 9 that support both ends of the lower winding part 5 are fire-resistant drawn out from the upper winding parts 4 and 6 because they are attached (the same applies to the brackets 11 and 12 shown in FIG. 1). The fireproof sheets 32 and 34 can be fed out and wound up in a predetermined manner without interfering with the sheets 32 and 34.
[0037]
Further, since the number of the opening / closing device 14 for rotating the three winding units 4 to 6 is one, the drive source to be used can be minimized, and the structure can be simplified accordingly.
[0038]
In particular, the winding unit directly driven by the opening / closing machine 14 is the central winding unit 5 among the three winding units 4 to 6 arranged in parallel in the axial direction. Compared with the case where the winding part on the part side is directly driven by the opening / closing machine 14 and the winding part on the other end side is rotated through the central winding part, the winding part and the winding part It is possible to rotate the three winding portions 4 to 6 while reducing the influence of twisting of the transmission shaft arranged on the shaft and backlash caused by play of the chain and sprocket.
[0039]
5 and 6 show another embodiment of how to attach the bracket that supports the winding unit to the building frame. In the following description, members that are the same as or correspond to those in the above embodiment are given the same reference numerals.
[0040]
5 is a case where the falling wall 53 which is a building frame exists on the same side as the feeding side A of the fireproof sheets 32 to 34 in the winding portions 4 to 6. The bracket that supports the winding portions 4 and 6 on both sides in the axial direction that is the upper winding portion is the same as the bracket 47 that supports the end portion of the winding portion 4 on the overlapping portion side with the winding portion 5. Attached to the wall 53. Further, the bracket that supports the axially central winding portion 5 that is the lower winding portion is the same as the bracket 48 that supports the end of the winding portion 5 on the overlapping portion side with the winding portion 4. It is combined with the bracket which supports the edge part by the side of the winding part 5 of the winding parts 4 and 6 in the opposite side B to the supply side A of the fireproof sheets 32-34 in the winding parts 4-6.
[0041]
This will be described with reference to the brackets 47 and 48 shown in FIG. 5. On the opposite side B of the bracket 48 from the feed-out side A, an upright portion 48A that rises vertically upward is formed. In either one or both of the end portion on the opposite side B to the feeding side A in 47, an extending portion extending to the other side by the length of the overlapping portion 41 is formed. The bracket 48 is coupled to the bracket 47 on the opposite side B.
[0042]
For this reason, the fireproof sheets 32 and 34 fed out from the upper winding parts 4 and 6 are not obstructed by the bracket that supports the lower winding part 5.
[0043]
In the embodiment of FIG. 6, the falling wall 73 that is a building frame is present on the same side as the feeding side A of the fireproof sheets 32 to 34 in the winding portions 4 to 6, and the upper floor slab 74 that is the building frame. Is present above the upper winding portions 4 and 6. These brackets that support the winding parts 4 and 6 are attached to the falling wall 73 in the same manner as the bracket 67 that supports the end part of the winding part 4 on the side of the overlapping part with the winding part 5. The bracket that supports the winding portion 5 at the center in the axial direction, which is the winding portion of the winding portion 4, is the same as the bracket 68 that supports the end portion of the winding portion 5 on the overlapping portion side with the winding portion 4. 6 is connected to the floor slab 74 on the side B opposite to the feeding side A of the refractory sheets 32 to 34.
[0044]
This will be described with reference to brackets 67 and 68 in FIG. 6. On the opposite side B of the bracket 68 from the feed-out side A, an upright portion 68A that rises vertically upward is formed, and this upright portion 68A is supported by a holding member 75. Are attached to a hanging member 76 that is suspended and fixed from the floor slab 74. For this reason, the bracket 68 is coupled to the floor slab 74 on the opposite side B via the hanging member 76.
[0045]
Also in this embodiment, the fireproof sheets 32 and 34 fed out from the upper winding portions 4 and 6 are not obstructed by the bracket that supports the lower winding portion 5.
[0046]
Further, according to the embodiment of FIG. 6, first, the bracket 67 is attached to the falling wall 73, and then the bracket 68 is joined to the floor slab 74 by the hanging member 76 and the retaining member 75, whereby the fireproof sheets 32, 34 are performed. And 33 are in a predetermined positional relationship, the respective winding portions can be easily and effectively attached by the respective brackets, and the work of assembling and arranging the disaster prevention shutter 1 in the ceiling space 3 can be performed rationally. .
[0047]
FIG. 7 shows another embodiment of the driving means for the three winding units 4 to 6. In this embodiment, the winding parts 4 and 5 are driven by the opening / closing machine 14 provided individually. The remaining winding unit 6 may be driven by an opening / closing unit provided separately from these switches 14 or the rotation of the winding unit 5 is sprocket, chain, etc. as in FIG. You may make it rotate by transmitting with the transmission mechanism by.
[0048]
When all the winding parts 4 to 6 are driven by individual switches, the winding parts 4 to 6 are driven without being affected by the twist of the transmission shaft used to form the transmission mechanism. Will be able to.
[0049]
8 and 9 show an embodiment in which the position of the winding unit 5 is adjustable in the thickness direction of the refractory sheet 33. FIG.
[0050]
In this embodiment, as shown in FIG. 8, the brackets that support both ends of the winding unit 5 (the brackets 8 and 9 in the same case as the embodiment of FIG. 1) are long in the thickness direction of the fireproof sheet 33. A long hole 80 is formed, and the rotation center shaft 5A of the winding unit 5 is inserted into a bearing member 81 that rotatably holds the center shaft 5A. Are slidably inserted into the grooves 81A and 81B. Further, female bracket members 82 and 83 are fixed to the bracket supporting the winding portion 5 before and after the long hole 80, and bolts in which lock nuts 84 and 85 are screwed to these female screw members 82 and 83. 86 and 87 are screwed into the bearing member 81.
[0051]
The ends of the bolts 86 and 87 abut against the bearing member 81, and the bolts 86 and 87 are locked at the positions by the lock nuts 84 and 85, so that the winding unit 5 is stationary in the thickness direction of the fireproof sheet 33. It becomes.
[0052]
In addition, after loosening the lock nuts 84 and 85, one of the bolts 86 and 87 is rotated and retracted and the other is rotated and moved forward, thereby moving the winding unit 5 and the bearing member 81 along the long hole 81. After the movement, the ends of the bolts 86 and 87 are brought into contact with the bearing member 81, and the bolts 86 and 87 are locked by the lock nuts 84 and 85, so that the winding unit 5 and the bearing member 81 are fireproof. The sheet 33 can be brought into an immobile state at a position moved and adjusted in the thickness direction.
[0053]
According to this embodiment, the position of the winding unit 5 can be adjusted in the thickness direction of the refractory sheet 33 by the above mechanism provided at both ends of the winding unit 5. 5 can be reliably brought into contact with the ends of the refractory sheets 32 and 34 of the winding portions 4 and 6. Thereby, the part which piled up the opposing edge parts of the fireproof sheets 32-34 can be formed without fail.
[0054]
Note that the position of the winding unit 5 can be adjusted in the thickness direction of the fireproof sheet 33 by the mechanism as described above, and when this adjustable distance is long, a chain for rotating the winding unit 5 (FIG. 9). 2, when the same drive mechanism as in FIG. 2 is employed to rotate the winding unit 5, a tension sprocket 88 to be engaged with the chain 18), and the tension sprocket 88 constantly tensions the chain. A chain tension mechanism composed of an elastic member 89 made of a spring or the like to be moved in the direction may be provided.
[0055]
【The invention's effect】
According to the present invention, since the positional deviation direction of the winding parts adjacent to each other is the vertical direction, the opposing ends of the shutter curtains fed out from these winding parts can be overlapped as they are, Therefore, the structure of the continuous building type shutter can be simplified.
[Brief description of the drawings]
FIG. 1 is a longitudinal sectional view of a building showing an embodiment when the present invention is applied to a disaster prevention shutter.
2 is a cross-sectional view taken along line II-II in FIG.
FIG. 3 is a perspective view showing the overlapping portion of the left winding unit and the central winding unit shown in FIG. 1 from the back.
FIG. 4 is a perspective view showing the overlapping portion of the central winding portion and the right winding portion shown in FIG. 1 from the back.
FIG. 5 is a view similar to FIG. 2 showing another embodiment relating to a method of attaching a bracket, which is a support member that supports the winding unit, to the building frame.
FIG. 6 is a view similar to FIG. 2 showing still another embodiment relating to how the bracket is attached to the building frame.
FIG. 7 is a view similar to FIG. 3 showing an embodiment in which a plurality of winding units are driven by individual driving means.
FIG. 8 is a diagram showing a position adjusting mechanism in an embodiment in which the position of a winding unit can be adjusted in the thickness direction of the shutter curtain.
9 is a view similar to FIG. 2 showing that a tension mechanism is provided on a chain for rotating the winding portion when the position adjusting mechanism of FIG. 8 is provided.
[Explanation of symbols]
1 Shutter for disaster prevention that is a shutter for buildings 4-6 Winding part 5A Rotation center shafts 7-12, 47, 48, 67, 68 of the winding part Brackets 13, 53, 73 as support members Falling walls as building structures 32 to 34 Fireproof sheet 74 that forms a shutter curtain Upper floor slab 80 that is a building frame 80 Long hole 81 Bearing members 84 and 85 Lock nuts 86 and 87 that constitute a position adjustment mechanism Bolts that constitute a position adjustment mechanism

Claims (6)

A plurality of winding sections are arranged side by side in the axial direction, and the two winding sections adjacent to each other are part of each of the winding sections. In the continuous building type shutter in which the opposite end portions of the shutter curtain that are fed out from these winding portions are overlapped with each other, the direction of the displacement is the vertical direction Continuously-equipped building shutters characterized by 2. The continuous building shutter according to claim 1, wherein at least one of the two winding portions adjacent to each other is adjustable in a thickness direction of the shutter curtain. Type shutters for buildings. 3. The shutter for a continuous building type building according to claim 1 or 2, wherein both of the supporting members that support the respective end portions on the overlapping portion side of the two winding portions adjacent to each other are shutters of the winding portion. A continuous building type shutter, which is attached to a building frame existing on the side opposite to the curtain feeding side. 3. The shutter for a continuous building type building according to claim 1, wherein, among the supporting members that support the respective end portions on the overlapping portion side of the two winding portions adjacent to each other, the end of the upper winding portion. The support member that supports the upper part is attached to the building frame existing on the same side as the shutter curtain feeding side of the winding unit, and the support member that supports the end of the lower winding unit is the upper winding unit. A continuous-type building shutter, which is coupled to the support member on the side opposite to the shutter curtain feeding side. 3. The shutter for a continuous building type building according to claim 1, wherein, among the supporting members that support the respective end portions on the overlapping portion side of the two winding portions adjacent to each other, the end of the upper winding portion. The support member that supports the upper part is attached to the building frame that is on the same side as the shutter curtain extension side of the winding unit, and the support member that supports the end of the lower winding unit is the upper winding unit. A shutter for a continuous building type, which is attached to a building frame existing above. 6. The shutter for a continuous building type building according to claim 1, wherein at least a part of each shutter curtain that is fed out and wound up from the two winding portions adjacent to each other is formed of a sheet. A shutter for continuous building, characterized by that.

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