JP2009041191A - Winding structure of shutter curtain and shutter device using the same - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a winding structure of a shutter curtain, capable of preventing one-sided flow of slats through a simple structure. <P>SOLUTION: In the winding structure of the shutter curtain 9 having a sacrificial winding 15 which is regularly left wound around the outer circumference of a winding part 41 in general opening and closing operation, the sacrificial winding 15 being connected in the opening and closing direction of rectangular plate-like shutter slats 13, the width of the first turn of shutter slats in the sacrificial winding 15 is formed smaller than the width of the second turn of shutter slats, and the winding part 41 includes a pair of support members 43 for supporting the second turn of shutter slats provided laterally on the outside of the first turn of shutter slats. When the sacrificial winding has turns exceeding one turn, the width of the lower layer wound shutter slats may be formed smaller than the width of the upper layer wound shutter slats, and the support member may include support surfaces for supporting the upper layer wound shutter slats provided laterally on the outside of the lower layer wound shutter slats. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a shutter curtain winding structure that prevents a single flow of a shutter slat in throwing winding, and a shutter device that uses this winding structure.

  Some shutter apparatuses include a shutter curtain that includes an open / close body in which strip-shaped shutter slats (hereinafter simply referred to as “slats”) are connected in the open / close direction. FIG. 7 is a front view of a conventional shutter device. This type of shutter device 1 is provided with a winding part 7 in a shutter case 5 attached to the upper part of a building opening 3, and a shutter curtain 9 is stored in the winding part 7 in a wound state. 3, the shutter curtain 9 is extended along the pair of left and right guide rails 11 until the lowermost member of the curtain touches the lower edge of the floor 3.

Generally, even when the shutter curtain 9 is extended from the shutter case 5 until the lowermost member of the curtain touches the lower edge of the opening 3 or the like, the shutter case 5 includes a shutter curtain such as a slat 13. Some of the members remain unrolled while being wound around the winding portion 7 as the extra length portion 15, and the uppermost end of the extra length portion 15 is the above-described winding portion 7. It is connected and fixed to the winding plate or the wheel via the suspension member 17. The extra length portion 15 is also referred to as “discarded winding”, and is always wound around the outer periphery of the winding portion 7 during a normal opening / closing operation. The shutter device 1 has the extra length portion (hereinafter referred to as “throw-up”) 15 so that the shutter curtain 9 is closed and its own weight is supported on the floor surface. A part of the discarded winding 15 is slightly extended, the suspended state is removed, and the tension is removed to facilitate maintenance such as slat replacement.
Japanese Utility Model Publication No. 5-54799 Japanese Utility Model Publication No. 7-40991

  However, in the shutter device 1, when a normal shutter curtain 9 is rolled up, if a tension is applied to the thrown winding 15 that is fully closed and not tensioned, as shown in FIG. The so-called “single flow”, in which the shutter curtain 9 a wound in the winding (winding) is tightened by the shutter curtain 9 b wound in the upper layer (second winding) and the slat 13 a of the lower shutter curtain 9 a is laterally displaced in the axial direction of the winding unit 7. May occur. In the shutter device 1, the winding portion 7 bends as shown in FIG. 8, and the second slat 13 b easily contacts the first slat 13 a only on one side, and a horizontal component force F is generated. The first slat 13a is shifted laterally. Moreover, in the shutter apparatus 1, the one end side of the winding part 7 is driven by the electric motor 21 via the reduction gears 19a and 19b. In particular, in the case of the long winding part 7, twisting is likely to occur together with the above-described bending, and the lateral deviation becomes more remarkable when these act together.

  Conventionally, for this single flow, a notch 27, a notch 29, and a caulking portion 31 are formed at the end portions of the slats 13a and 13b connected by the lower curl portion 23 and the upper curl portion 25 shown in FIG. , A structure for preventing lateral displacement of the upper and lower slat connecting portion 33, a structure in which a regulating piece (not shown) for preventing a single flow extending to the connecting portion is provided at the end of the slat, and a roller (not shown) in the guide rail And a slat guide shaft (not shown) is mounted in the shutter case so as to be positioned lower than the shutter shaft in the shutter case so that the slats are aligned when moving up and down (see Patent Document 1). A structure that approaches the central part of the shaft (see Patent Document 2) and the like have been adopted as a preventive measure. However, since the conventional countermeasures have not solved the root cause of the single flow, the occurrence of the lateral displacement is not prevented. As shown in FIG. 31 or damage due to wear of the regulation piece is likely to occur, abnormal noise generation, malfunction, and the laterally displaced slat end slidably contacts the case bracket 35 and is not corrected in that state for a long time. There was also a concern that the case bracket 35 would be cut out if used continuously, leading to a serious damage accident. On the other hand, if a roller is arranged in the guide rail or a guide shaft is attached in the shutter case, the number of parts increases, the structure becomes complicated, and the product cost increases.

  The present invention has been made in view of the above circumstances, and provides a shutter curtain winding structure capable of preventing a single flow of a shutter slat with a simple structure, thereby improving safety without increasing manufacturing costs. For the purpose.

Next, means for solving the above problems will be described with reference to the drawings corresponding to the embodiments.
The winding structure of the shutter curtain according to claim 1 of the present invention has a waste winding 15 that is always wound around the outer periphery of the winding portion 41 during a normal opening and closing operation, and the shutter slat 13 having a strip plate shape is provided. A shutter curtain winding structure connected in the opening and closing direction,
The width direction of the first shutter slat 13a wound around the outer periphery of the winding part 41 is formed shorter than the width direction of the second shutter slat 13b,
The winding section is provided with a pair of support members 43 and 43 for supporting the second shutter slat 13b on the outer side in the width direction of the first shutter slat 13a.

  In this shutter curtain winding structure, when winding of the shutter curtain 9 is started, the winding portion 41 is rotated, and the shutter slat 13a of the first winding of the discard winding 15 always above the guide rails 11 and 11 is rotated. In the above, the second shutter slat 13b is supported by the support members 43 and 43 and is not directly placed on the first shutter slat 13a. As a result, the second shutter slat 13b is 1 on only one side. The lateral displacement of the first shutter slat 13a due to contact with the shutter slat 13a of the winding and generation of the horizontal component force F does not occur.

The winding structure of the shutter curtain according to claim 2 is formed such that a width direction of the lower-layer winding shutter slat 13d of the discarded winding wound more than 1 is shorter than a width direction of the upper-layer winding shutter slat 13u,
The support member 43A is characterized in that a support surface 47 for supporting the upper-layer wound shutter slat 13u is provided stepwise outside the lower-layer wound shutter slat 13d in the width direction.

  In this shutter curtain winding structure, even if it is a discarded winding 15 that is wound around the winding portion 41 in excess of one winding, the upper layer winding shutter slat 13u following the lower layer winding shutter slat 13d is formed by the support member 43A. It is supported by the support surface 47, and can support the upper layer wound shutter slat 13u so as not to be directly placed on the lower layer wound shutter slat 13d by using a pair of support members 43A and 43A for the multi-layer discarded winding.

  In the shutter curtain winding structure according to claim 3, an inward guide taper surface 45 having a smaller diameter toward the inner side in the width direction is formed on the opposing surfaces on the inner side in the width direction of the pair of support members 43, 43. It is characterized by that.

  In this shutter curtain winding structure, when the end portion of the shutter slat 13 contacts the inward guide taper surface 45, the contacted shutter slat 13 slides along the inward guide taper surface 45 and a pair of support members 43. , 43.

  According to a fourth aspect of the present invention, a shutter device includes the shutter curtain winding structure according to any one of the first, second, and third aspects.

  In the shutter device 100, by providing the shutter curtain winding structure described above, it is possible to obtain a shutter device that improves safety and prevents a single flow of slats.

  According to the winding structure of the shutter curtain according to the first aspect of the present invention, the width direction of the first shutter slat in discard winding is formed shorter than the width direction of the second shutter slat, and the winding portion Since a pair of support members for supporting the second shutter slat are provided on the outer side in the width direction of the first shutter slat, the first shutter slat is always above the guide rail. In addition, the second shutter slat that follows is not mounted directly, and the second shutter slat comes into contact with the first shutter slat on one side only and generates a horizontal component force. Slat lateral displacement can be avoided. Thereby, it is possible to prevent slats from flowing with a simple structure and improve safety without greatly increasing the manufacturing cost.

  According to the shutter curtain winding structure according to claim 2, the width direction of the lower layer wound shutter slat of the discarded winding wound more than 1 is formed shorter than the width direction of the upper layer wound shutter slat, and the support member Since the support surface for supporting the upper-layer winding shutter slat is provided stepwise on the outer side in the width direction of the lower-layer winding shutter slat, the throwing winding can be wound with more than one winding without increasing the number of parts. Even if there is a pair of support members, it is possible to support the upper-layer wound shutter slat so that it is not directly placed on the lower-layer wound shutter slat. A single flow can be prevented.

  According to the winding structure of the shutter curtain according to claim 3, the inner guide taper surface having a smaller diameter toward the inner side in the width direction is formed on the inner surface in the width direction of the pair of support members. When the end of the lens comes into contact with the guide taper surface for inward contact, the contacted shutter slats are moved to the inside of the pair of support members, and lateral displacement that is not caused by horizontal component force due to tightening of the upper wound shutter slats is also suppressed. can do.

  According to the shutter device of claim 4, since the shutter curtain winding structure is provided, the shutter device having the above-described effects, that is, the shutter device that improves safety and prevents the slats from flowing separately. Can be obtained.

DESCRIPTION OF EXEMPLARY EMBODIMENTS Hereinafter, preferred embodiments of a shutter curtain winding structure according to the invention will be described in detail with reference to the drawings.
1 is a front view of a shutter device having a shutter curtain winding structure according to the present invention, FIG. 2 is an enlarged front view of the winding portion shown in FIG. 1, and FIG. 3 is one roll wound around the winding portion. It is sectional drawing of the winding part axis line orthogonal direction showing the shutter slat of a 2nd roll.
In addition, the 1st volume, the 2nd volume, ... are the counts from the winding start side (the suspension member 17 side described later) of the shutter curtain 9.
The shutter device 100 according to the present embodiment has a winding part 41 in a shutter case 5 attached to an upper portion of an opening 3 provided in a building or the like, and the shutter curtain 9 is wound around the winding part 41 in a wound state. On the other hand, at the time of closing, the shutter curtain 9 is fed out along the pair of left and right guide rails 11 until the member at the lowermost end of the curtain touches the lower edge of the floor of the opening 3.

  In the shutter case 5, a shutter such as a strip-like slat 13 is fully closed when the shutter curtain 9 is extended from the shutter case 5 until the lowermost member of the shutter curtain 9 touches the lower edge of the opening 3. Some of the curtain constituent members are left unrolled around the take-up portion 41 without being fed out as the discarded winding 15, and the uppermost end of the discarded winding 15 (in other words, the end of the shutter curtain 9 on the opening movement direction side). ) Is a winding portion 41, for example, a winding shaft, a winding drum, a winding plate, or a wheel, which is connected and fixed via a suspension member 17 (see FIG. 3). The discarded winding 15 is always wound around the outer periphery of the winding unit 41 during a normal opening / closing operation. The shutter device 100 has the discard winding 15 so that the shutter curtain 9 is closed and the weight of the shutter device 100 is supported on the floor, and then a part of the discard winding 15 is further extended and suspended by a maintenance operation or work. Maintenance such as slat replacement is facilitated by removing the tension and removing the tension.

  The electric motor 21 is fixed to the case bracket 35 of the shutter case 5, and the electric motor 21 rotationally drives one end side (right end side in the example) of the winding portion 41 via the reduction gears 19 a and 19 b.

  The shutter curtain 9 connects the lower curl portion 23 (see FIG. 9) and the upper curl portion 25 (see FIG. 9) in the open / close direction, including the strip winding 15, as in the prior art. It becomes. Further, the end portions of the slats 13a and 13b in the shutter curtain 9 are provided with the cutout 27, the cutout 29, and the caulking portion 31 shown in FIG. It may be formed.

  In the shutter device 100, the width Wa (see FIG. 2) of the first slat 13a in the shutter curtain 9 is shorter than the width Wb (see FIG. 2) of the second slat 13b. As shown in FIG. 3, the first roll slat 13a includes a first roll slat 13a1, a second roll slat 13a2, a first roll slat 13a3, The first slat 13a4 is the fourth roll. The second slat 13b includes a first slat 13b5, a second slat 13b6, a second slat 13b6, a second slat 13b7, a second slat 13b8, a second slat 13b8, It consists of a ninth second slat 13b9 and a tenth second slat 13b10. Usually, the slats 13 from the suspension member 17 to several sheets are discarded.

  The winding unit 41 is provided with a pair of support members 43 and 43 that support the second slat 13b on the outer side in the width direction of the first slat 13a. In the present embodiment, the flange-shaped support members 43 and 43 are exemplified, but the support member may be an intermittent projecting support member in addition to the disk shape. By providing the support members 43, 43, the first slat 13a is directly wound around the winding portion 41 between the support members 43, 43, while the second slat 13b is supported at both ends. It is wound around the members 43 and 43 and the first slat 13a is not tightened. Note that the first slat 13a and the second slat 13b need not have a tightening force from the second slat 13b acting on the first slat 13a, and there is a gap s between them. It may be either formed or not.

The support members 43 and 43 are members that support the slats of the second and subsequent rolls, but the axial force generated on the slats 13a of the first roll, that is, the thrust of the first slat 13a that cancels the thrust force. It may also serve as a lateral displacement prevention means. Therefore, it is preferable that the gap between the both ends of the first slat 13a and the support members 43 and 43 is as small as possible.
In consideration of the fact that the position of the first slat 13a and the position of the second slat 13b do not necessarily coincide with each other in the circumferential direction of the winding part 41, the winding of the support members 43 and 43 The rising height dimension from the portion 41 is preferably approximately the same as or slightly larger than the slat thickness dimension (approximately 1.0 to 1.2 times). Moreover, the rising height dimension from the winding part 41 of the supporting members 43 and 43 is set equal.

In addition, an inward guide taper surface 45 having a smaller diameter toward the inner side in the width direction is formed on the opposing surfaces on the inner side in the width direction of the pair of support members 43, 43. As a result, when the end of the slat 13a of the first roll comes into contact with the inward guide taper surface 45, the contacted shutter slat 13 slides along the inward guide taper surface 45, and the pair of support members 43, 43 It is brought inside. That is, it is possible to suppress a lateral shift that is not caused by a horizontal component force F (see FIG. 8) due to tightening of the upper-layer wound shutter slat (second slat 13b).
In addition, it is more preferable to provide a taper like the above-mentioned guide taper surface 45 for inward alignment in the opposing surface inside the width direction of a pair of support members 43, but it does not form in a taper shape but it makes it stand | start up vertically. Is also possible.

  In this winding structure, when the winding of the shutter curtain 9 is started, the winding unit 41 is rotated, and the second slat 13b following the second slat 13b is placed on the support members 43 and 43 on the first slat 13a. It will be supported and will not rest directly on the first slat 13a. As a result, the slat 13b of the second roll comes into contact with the slat 13a of the first roll only on one side, and the lateral displacement of the slat 13a of the first roll due to the generation of the horizontal component force F does not occur.

Therefore, according to the winding structure of the shutter curtain described above, the width direction of the slat 13a of the first roll is formed shorter than the width direction of the slat 13b of the second roll. Since the pair of support members 43 and 43 for supporting the second slat 13b are provided on the outer side in the width direction of the slat 13a, the second slat 13b is not directly mounted on the first slat 13a. The lateral displacement of the slat 13a of the winding can be prevented, and the slat 13 can be prevented from flowing in a simple structure, and the safety can be improved without increasing the manufacturing cost.
In addition, it can be said that the space | interval of the opposing surfaces of the width direction inner side of a pair of support members 43 and 43 is Wa or more and Wb or less.

FIG. 4 is a front view of a winding unit having a stepped support surface.
Note that the shutter curtain winding structure according to the present invention can also be used when the discarded winding 15 has more than one winding. In this case, the width Wd (see FIG. 4) of the lower-layer winding slat 13d of the discarded winding 15 wound with more than one winding (one winding portion 41) is set to the width Wu (see FIG. 4) of the upper-layer winding slat 13u. (See FIG. 4). The support members 43A and 43A are provided with stepped support surfaces 47 that support the upper layer winding slats 13u on the outer side in the width direction of the lower layer winding slats 13d.

By providing support members 43A and 43A having such a support surface 47 in the winding part 41, even in the case of the discard winding 15 wound around the winding part 41 with more than one winding, the lower layer winding The upper layer winding slat 13u following the slat 13d is supported by the support surface 47, and the upper layer winding slat 13u is directly mounted on the lower layer winding slat 13d using a pair of support members 43A and 43A for the multi-layered discard winding 15. It becomes possible to support so as not to Thereby, the single flow of the slat 13 can be prevented at a low cost with a simple structure even with respect to the multi-layered discard winding 15.
In addition, according to the illustrated example of FIG. 4, the number of discarded windings is an example of more than 1 but not more than 2, but if the number of steps of the support surface 47 of the support member is further increased, the number of discarded windings can be further increased. A single flow of the slat 13 can be prevented. In addition, it is preferable that the height dimension of the step is approximately the same as or slightly larger than the thickness dimension of the slat 13 (up to 1.2 times). Further, the heights of the steps of the support members 43A and 43A are equal to each other.

FIG. 5 is a front view of a winding unit in the manual open / close shutter device.
In the above embodiment, the case where the present invention is applied to the electric shutter device including the electric motor 21 has been described. However, the shutter curtain winding structure according to the present invention does not include the electric motor 21. 5 can also be employed in a manually open / close type shutter device 200 in which wheels 53, 53 urged by a spring 51 for assisting a winding force are rotatably supported on a fixed shaft 49 shown in FIG. Even in this case, the second slat 13b is attached to the support surface 55 of the wheel 53 by configuring the wheels 53, 53 at both ends as a support member similar to the above in which the support surface 55 is formed as shown in the figure. It is supported and is not directly mounted on the first roll of slat 13a, and has the same effect as described above.

Next, by examining the behavior of the slat of the first volume (1 volume or less) directly wound by the slat of the second volume (1 volume or more and 2 volumes or less), the configuration of the present invention is effective in preventing the single flow. An experiment that verified this will be described.
[Specimen]
Slat Material Galvanized Steel Shutter Curtain Size, Number Width 2000 x Pitch 76mm, Winding Diameter of 33 Sheets φ114.3mm
[Sensors used]
Eddy current type non-contact displacement meter Sensor body fixed to winding part
Paste the target to the end of the slat
Measurement of displacement between slat and sensor 3-axis strain gauge Measurement of slat deformation strain [Measuring method]
After connecting the output from the eddy current type non-contact displacement meter and the triaxial strain gauge to the A / D converter and making the initial settings, the shutter curtain is repeatedly opened and closed, and all outputs during the opening and closing operation are measured simultaneously. did.

[Measurement result]
FIG. 6 is a cross-sectional view in the direction perpendicular to the winding unit axis, in which the winding state of the shutter curtain from the fully closed state to the second roll is represented by (a) to (d).
From the fully closed state of the shutter curtain 9 shown in FIG. 6A, the winding portion 41 is rotated counterclockwise in the drawing, and the first slat 13a is taken up as shown in FIG. 6B. After that, as shown in FIG. 6 (c), when the second slat 13b starts to be wound, the second first slat 13a2 and the second second slat 13b8 overlap and take up. When this was done, the lateral displacement of the second slat 13a2 of the first roll appeared remarkably. Further, in the throw-off winding 15, the slat starting to wind from the first roll is tightened, and the first roll slides in the lateral direction by the thrust force, and becomes a source of lateral deviation. When a lateral deviation occurs, the winding diameter changes at the left and right ends, which also causes a lateral deviation, and the occurrence of the lateral deviation is a rotation between the driving side (electric motor 21 side) and the driven side at the left and right ends. There was also an outbreak of power inequality.

  Furthermore, the cause of lateral misalignment is due to the tightening force of the upper layer winding slat wound on the lower layer winding slat, and the length of the winding unit 41 due to the slat previously wound around the winding unit 41. It was found that this occurred due to the bending in the direction of gravity that occurred and torsion during the rotation of the winding part 41. The lateral displacement also tends to increase the deviation each time the shutter curtain 9 is opened and closed.

  From the above results, if the support members 43, 43 according to the configuration of the present invention are provided and the upper layer wound slats are not directly mounted on the lower layer wound slats, the horizontal component resulting from the tightening of the upper layer wound slats can be obtained. It has been confirmed that the force can be canceled and the horizontal winding slats can be prevented from being displaced with a simple structure.

It is a front view of the shutter apparatus provided with the winding structure of the shutter curtain which concerns on this invention. It is an enlarged front view of the winding part shown in FIG. It is sectional drawing of the winding part axis line orthogonal direction showing the shutter slat of the 1st volume wound by the winding part, and the 2nd volume. It is a front view of the winding part which has a step-shaped support surface. It is a front view of the winding part in a manual open / close type shutter apparatus. It is sectional drawing of the winding part axis line orthogonal direction which represented the winding state from the fully-closed state of a shutter curtain to the 2nd volume by (a)-(d). It is a front view of the conventional shutter apparatus. It is a front view of the winding part in the conventional shutter device by which the slat of the 1st volume and the 2nd volume was wound. It is explanatory drawing of the up-and-down slat connection part which represented the structure (a) which prevents a horizontal shift, and the connection part of a lower curl part and an upper curl part to (b). It is an enlarged front view of the crimping part which a failure | damage arises by a horizontal shift.

Explanation of symbols

9 ... Shutter curtain 13 ... Shutter slat
13a ... First shutter slat 13b Second shutter slat 13d Lower layer shutter slat 13u Upper layer shutter slat 15 ... Disposal winding 41 ... Winding part 43 ... Support member 45 ... Guide taper Surface 47 ... Support surface

Claims (4)

A shutter curtain winding structure comprising a throwing winding that is always wound around the outer periphery of the winding unit during normal opening and closing operations, and connecting a strip-shaped shutter slat in the opening and closing direction,
Forming a width direction of the first shutter slat wound around the outer periphery of the winding portion shorter than a width direction of the second shutter slat;
A winding structure of a shutter curtain, wherein the winding unit is provided with a pair of support members that support the second shutter slat on the outer side in the width direction of the first shutter slat. Forming the width direction of the lower-layer winding shutter slat of the discarded winding wound with more than one turn shorter than the width direction of the upper-layer winding shutter slat;
2. The shutter curtain winding according to claim 1, wherein a supporting surface for supporting the upper layer winding shutter slat is provided stepwise on the support member on the outer side in the width direction of the lower layer winding shutter slat. Construction.   3. The shutter curtain according to claim 1, wherein an inner guide taper surface having a smaller diameter toward the inner side in the width direction is formed on the opposing surfaces on the inner side in the width direction of the pair of support members. Winding structure.   A shutter device comprising the shutter curtain winding structure according to claim 1.

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