JP6178170B2 - Shutter device - Google Patents

Description

  The present invention relates to a shutter device having a method of winding a shutter curtain around a winding body or unwinding the shutter curtain from the winding body, and relates to a shutter device that opens and rotates a slat constituting the shutter curtain.

  2. Description of the Related Art Conventionally, there has been disclosed a shutter device including a shutter curtain formed by arranging a plurality of slats extending in the left-right direction side by side along a height direction, and a winding body. When the winding body rotates in one direction, the shutter curtain is wound around the outer periphery of the winding body. When the winding body rotates in the reverse direction, the shutter curtain wound around the outer periphery of the winding body is unwound.

  In this type of shutter device, with the shutter curtain unwound from the winder and the seat plate at the tip of the shutter curtain landed, the upper several slats are in the open position and the other slats are in the closed position Thus, there is known one in which an opening is formed above (Patent Document 1). This shutter device has air permeability, is capable of ventilation, is excellent in crime prevention, and has blinding properties.

JP 2009-46906 A

  According to the shutter device described above, the configuration for holding the upper several slats in the open posture is arranged on the front surface (outdoor) side of the guide rail portion 53. Therefore, it is extended to the front rather than the apparatus which does not open several upper sheets, and the structure which hides those structures is provided. Further, since the sliding portion is on the front surface, sand and dust are likely to be attached, and the slidability is likely to be deteriorated.

  The present invention has been made in view of the above-described circumstances, and an object to be solved is to provide a shutter device that suppresses expansion of the guide rail portion and hardly deteriorates slidability.

The structural feature of the invention of (1) for solving the above-mentioned problem is that a retractable shutter curtain having a plurality of slats arranged in parallel in the opening and closing direction,
A winder that winds up the shutter curtain with rotation in one direction and unwinds the shutter curtain with rotation in the opposite direction;
A drive mechanism for rotating the winding body in the one direction and the opposite direction;
An engagement position that engages at least a part of the moving slat when the shutter curtain moves in the closing direction, rotates the slat to an open position, and forms an opening between the adjacent slats; An operating body provided to be switchable to a retracted position that does not engage with the moving slat and does not rotate the slat to an open posture;
A rotation shaft portion serving as a rotation center of the slat;
A rotation holding portion that is provided at an end of the slat and is located on the back side of the slat with respect to a rotation fulcrum and holds the release posture when the slat rotates in the release posture;
A guide rail that is provided on the back side of the slat and that engages with the rotation holding part to hold the angle of the opening posture of the slat and guides the end of the slat of the shutter curtain. And
Equipped with,
The angle holding portion includes a rib-shaped rib portion sandwiched between the rotation shaft portion and the rotation holding portion,
The rib portion includes a sliding portion that contacts the rotation holding portion, and a sliding portion that contacts the rotation shaft portion,
The sliding part with which the rotation holding part abuts is provided with an entry part inclined at the upper end,
The entry part is formed so that the thickness becomes narrower toward the end part,
The sliding portion that contacts the rotating shaft portion includes a taper portion,
The taper portion is inclined so as to increase in thickness from the indoor side toward the outdoor side .

  The invention of the above (1) can be adopted by arbitrarily adding one or more of the configurations of (2) to (7) described below.

(2) The taper portion is located below the entry portion .

(3) The end portion of the slat includes a non-contact portion that does not come into contact with the guide rail portion other than the angle holding portion when rotated to the open posture .

(4) The said angle holding | maintenance part is that it is a shape where the angle which the said slat rotates becomes large after the time of the engagement start with the said rotation holding | maintenance part .

(5) The angle holding part is made of a resin separate from the guide rail part,
The rotation holding part is made of metal.

  (6) The end portion of the slat includes a first rotating body in which a portion in contact with the guide rail portion can rotate relative to other portions of the end portion of the slat.

  (7) The rotation holding portion includes a second rotating body in which a portion engaged with the angle holding portion can rotate relative to the other portions of the rotation holding portion.

  According to the invention of (1), since the guide rail portion is positioned on the back side of the slat, the extension to the front surface can be suppressed. In addition, in the shutter device that can be in the open posture, the member corresponding to the angle holding portion is located further rearward than the slat that moves well as compared with the case where the member corresponding to the angle holding portion is located on the front surface. Slidability is unlikely to deteriorate.

  According to the invention of (2), the end portion of the slat slides with the angle holding portion when rotating to the open posture and does not slide with the angle holding portion when not rotating to the open posture. In this case, it is possible to suppress wear of the sliding portion and increase in sliding resistance.

  According to the invention of (3), since the angle before the slat is in the open posture is narrower than that in the open posture, it is possible to suppress the catch on the angle holding portion due to insufficient rotation of the slat. Also, when the slats return from the open position, the angle is once narrowed from the open position, so that the slats will not close due to sudden rotation from the open position, and the slats and other parts can be prevented from hitting. The hit sound can be reduced.

  According to the invention of (4), since the sliding portion of the angle holding portion is a rib shape, the sliding area is reduced and adhesion of sand and dust can be suppressed, resulting in an increase in sliding resistance. Can be suppressed.

  According to the invention of (5), since the angle holding part is a separate body from the guide rail part, only the angle holding part can be replaced, and it is easy to change even if deterioration or change in angle occurs. Furthermore, sliding resistance can be suppressed and deterioration can also be suppressed by making the rotation holding | maintenance part which slides metal.

  According to invention of (6), since the 1st rotary body contact | abutted to a guide rail part can rotate with respect to the edge part of a slat, it suppresses friction with the guide rail part at the time of making a slat into an open posture. be able to.

  According to invention of (7), since the 2nd rotary body engaged with an angle holding | maintenance part can rotate with respect to a rotation holding | maintenance part, the abnormal sound and vibration by the friction at the time of making a slat into an open posture are prevented. Can be suppressed.

It is a front view which shows the front view of the shutter apparatus which concerns on embodiment. It is a perspective view of the shutter apparatus of a full open state. It is a perspective view of the shutter device in the ventilation mode state. It is a cross-sectional view of the shutter device according to the first embodiment in which the slat is in the open posture. It is a cross-sectional view of the shutter device according to the first embodiment in which the slat is in the closed posture. It is a schematic diagram of the longitudinal cross-section in the middle of the shutter apparatus which concerns on Embodiment 1 in the ventilation mode state. It is a perspective view of the shutter device in a fully closed state. It is a cross-sectional view of the shutter device according to the second embodiment in which the slat is in the open posture. It is a cross-sectional view of the shutter device according to the second embodiment in which the slat is in the closed posture. 6 is a side view of an angle holding unit of a shutter device according to Embodiment 2. FIG. It is the schematic diagram of the longitudinal cross-section in the middle of the shutter apparatus which concerns on Embodiment 2 in the ventilation mode state. FIG. 12 is a schematic diagram of a vertical cross section in which the shutter curtain is lower than that in FIG. 11 while the shutter device according to the second embodiment reaches the ventilation mode state. It is a schematic diagram of a longitudinal section of the shutter device in the ventilation mode state according to the second embodiment. It is a cross-sectional view of the shutter device according to the third embodiment in which the slat is in the open posture. It is a cross-sectional view of the shutter device according to the third embodiment in which the slat is in the closed posture. It is a schematic diagram of the longitudinal cross-section in the middle of the shutter apparatus which concerns on Embodiment 3 in the ventilation mode state.

(Embodiment 1)
Hereinafter, Embodiment 1 of the present invention will be specifically described with reference to FIGS. In order to avoid complication, some hatching is omitted in the drawing. FIG. 1 schematically shows a front view of a shutter device installed on a structure so as to open and close an opening 93 (see FIG. 2) of the structure such as a building. The shutter device includes a shutter curtain 1 formed by arranging a plurality of slats 6 along the height direction, a winding body 12 that winds up the shutter curtain 1, and a drive mechanism that rotates the winding body 12. A motor 13 that is a base, a horizontal frame 14 that constitutes a part of a base for rotatably holding the winding body 12, and two pieces that constitute a part of a base provided on both sides of the shutter curtain 1 Vertical struts 15. A switch (not shown) for controlling the motor 13 is provided. When the motor 13 is driven by the switch and the winding body 12 rotates in one direction around the rotation center line 12x, the shutter curtain 1 moves in the direction of the arrow H1 (shutter opening direction), and the shutter curtain 1 moves to the winding body 12. Is wound up. When the motor 13 reversely moves by the switch and the winding body 12 rotates in the reverse direction, the shutter curtain 1 is unwound from the winding body 12, moves in the direction of arrow H2 (shutter closing direction), and the seat plate 6x lands. To do.

  The slat 6 extends between the two vertical struts 15 along the left-right direction (L direction). The winding body 12 or the motor 13 is provided with a brake portion 20 that disables the rotation of the winding body 12. FIG. 1 is a conceptual diagram only, and the number of slats 6 is not limited to that shown in FIG. As shown in FIG. 1, chain-like linear connecting members 17 are respectively provided on the left and right sides of the shutter curtain 1. The linear connecting member 17 connects the ends of the slats 6 provided adjacent to each other in the height direction (arrow H direction) of the shutter device, and is extendable along the height direction (arrow H direction). Yes.

  As described above, the shutter device includes a shutter usage mode in which the shutter curtain 1 is opened and closed in the height direction, a blind usage state in which openings can be formed between the slats 6 (see FIG. 2), and a plurality of slats 6. The upper predetermined number (for example, three) of slats 6 can be used in a ventilation mode state (see FIG. 3) in which the slats 6 are in the open posture and the other slats 6 are not in the open posture. Since the present invention relates to the ventilation mode state, the ventilation mode state will be mainly described.

  As shown in FIG. 1, the shutter curtain 1 includes a plurality of slats 6 arranged in parallel in the opening / closing direction (arrow H direction) of the shutter curtain 1. As shown in FIG. 4, the slat 6 includes a slat body 60 made of metal or resin, and resin slat caps 3 and 4 fixed to both ends of the slat body 60 in the longitudinal direction. The slat 6 shown in FIG. 4 shows a slat 6o (o: open) that is set to be in an open posture in the ventilation mode. The slat caps 3 and 4 are attached to the end portions of the slat main body 60, and are axially formed outward from the attached portions 33 and 43 (in the extending direction of the slat 6 (arrow L direction)). Projecting pivot shafts 31 and 41 are provided. As shown in FIGS. 4 and 5, the slat caps 3 and 4 of the slat 6o are attached with different shapes at both ends. The slat cap 3 at one end of the slat 6o has a rotating protrusion 32 protruding from the outer wall surface of the rotating shaft 31. The slat cap 4 at the other end of the slat 6o is integrally formed with an axial rotation holding portion 42 that protrudes in the extending direction of the slat 6o substantially parallel to the rotation shaft portion 41. The rotation holding portion 42 is a metal pin that is insert-molded in the slat cap 4 positioned above the rotation shaft portion 41 in a closed posture in which the slat 6o does not rotate and there is no gap between the slats 6o. .

  As shown in FIGS. 4 and 5, both vertical struts 15 are provided with guide rail portions 53 that form a first space 51 and a second space 52, respectively. The first space 51, the second space 52, and the guide rail portion 53 are extended along the height direction (the direction indicated by the arrow H in FIG. 1). In the first space 51, the end portions of the rotation shaft portions 31 and 41 of the slat caps 3 and 4 move in the height direction. The second space 52 is located closer to the room (back side) than the first space 51, and the angle holding unit 7 described later is disposed in the second space 52 of one guide rail portion 53. Further, a hard resin or metal working body 5 is attached to the upper side of the outdoor front surface 54 of the other guide rail 53 so as to be movable in the left-right direction (arrow E1, E2 direction). The operating body 5 is slidably disposed on the front surface 54 of the guide rail portion 53 so as to be movable between the engagement position A and the retracted position B in the directions of arrows E1 and E2. Note that the movement of the operating body 5 is electrically performed because it is automatically performed by operating a switch, and may be realized by a known technique as described in Patent Document 1. There is no need for a special configuration.

  The angle holding part 7 is a member accommodated in the second space 52 as shown in FIGS. 4 and 5 and is necessary from above the second space 52 where the slat 6o can be in an open posture as shown in FIG. The length is extended downward. The angle holding portion 7 includes a rail portion 71 that guides the rotation holding portion 42 of the slat cap 4 when the slat 6o is in the open posture. The sliding surface (sliding portion) 711 forming the rail portion 71 is formed substantially straight in the height direction (arrow H direction) so that the rotation holding portion 42 slides and descends. The sliding surface 711 includes an entry portion 712 inclined at the upper end and the lower end. The entry portion 712 is formed so that the thickness (arrow D direction) becomes narrower toward the end portion so that the rotation holding portion 42 descending from above can easily enter the rail portion 71. In addition, since the entrance part 712 exists in the upper and lower ends, it can be installed in any second space 52 of the guide rail part 53 on the left and right, and the functions of the slat caps 3 and 4 having different shapes on the left and right can be exchanged. . In the rotated slat 6o, the rotation holding portion 42 enters the rail portion 71, slides on the entry portion 712, and descends the sliding surface 711 almost straight after passing the entry portion 712. While the rotation holding portion 42 is descending the entry portion 712, the slat 6o is not completely in the open posture, and is slightly narrower than the open posture. After passing through the entry part 712, it becomes an open posture. For ease of explanation, in FIG. 6, the rotation protrusion 32 and the rotation holding portion 42 are illustrated as the same slat cap 3 (4).

  In the first embodiment, as shown in FIGS. 4 and 5, the operating body 5 is disposed on the left guide rail portion 53 when the shutter device is viewed from the outdoor side. The angle holding unit 7 is arranged in the two space 52. The slat cap 3 is attached to one end of a slat 6o that can be in an open posture on the side where the operating body 5 is disposed, and the slat cap 4 is attached to the other end. The operating body 5 has an operating protrusion 55 that protrudes toward the rotation shaft portion 31 of the slat cap 3. When the operating body 5 is in the engagement position A and the slat 6o descends, the operating protrusion 55 engages (contacts) the rotating protrusion 32 of the rotating shaft 31 of the slat cap 3, and the operating body When 5 is at the retracted position B and the slat 6o is lowered, the rotating protrusion 32 is not engaged (contacted). When the rotation protrusion 32 is engaged with the operation protrusion 55, the slat 6o rotates (in the direction of arrow D) so that the lower side rises with the rotation shaft 31 and the rotation shaft 41 located at the left and right ends as fulcrums. To do. When the slat 6o rotates, the rotation holding portion 42 also rotates and moves from the upper side of the rotation shaft portion 41 to the indoor side.

Here, the slat 6 set so as not to be in the open posture in the ventilation mode state will be described. The slat 6 includes a slat body 60 made of metal or resin, the same as the slat 6o that can be in an open posture. And as a resin-made slat cap 62 attached to the both ends of the longitudinal direction of the slat main body 60, the structure without the rotation protrusion part 32 and the rotation holding | maintenance part 42 is attached (refer FIG. 6). The slat cap 62 includes an attachment portion 63 attached to an end portion of the slat body 60, and a rotation shaft portion that protrudes in an axial direction from the attachment portion 63 in the outward direction (extending direction of the slat 6 (arrow L direction)). 64. Or it can also be set as the slat cap 4 in which both ends are equipped with the rotation holding | maintenance part 42. FIG. Slat cap 4 comprising a rotation holding portion 42, because it does not include a pivot projection 32 to be engaged with the actuating projection 5 5 actuation member 5, operation body 5 even engagement position A, and an open position Don't be.

  First, a case where the shutter curtain 1 is closed in a fully closed state will be described. The fully closed state of the shutter curtain 1 is a state in which the seat plate 6x is landed and there is no gap between the slats 6 (6o) as shown in FIG. In this case, the operating body 5 is set to the retracted position B (see FIG. 5). In this state, when the motor 13 operates in the unwinding direction and the winding body 12 rotates in the unwinding direction, the shutter curtain 1 is unwound from the winding body 12, and the shutter closing direction (arrow H2 direction, downward direction). Move to. The slat 6o that can be in the open posture moves downward without rotating because the rotating protrusion 32 of the slat cap 3 does not engage with the operating protrusion 55 of the operating body 5.

  Next, a case where the shutter curtain 1 is closed in the ventilation mode state will be described. The ventilation mode state of the shutter curtain 1 is a state where the seat plate 6x is landed and the upper three sheets are rotated to the open posture as shown in FIG. In this case, the operating body 5 is set to the engagement position A. In this state, when the motor 13 operates in the unwinding direction and the winding body 12 rotates in the unwinding direction, the shutter curtain 1 is unwound from the winding body 12 and moves in the arrow H2 direction (closed direction, downward). To do. At this time, the rotation protrusion 32 of the rotation shaft 31 of one slat cap 3 of the slat 6 o that can be in the open posture engages with the operation protrusion 55 of the operating body 5. The slat 6o rotates so that the lower side rises with the rotation shaft portions 31 and 41 as fulcrums, the rotation holding portion 42 enters the rail portion 71 of the angle holding portion 7, and the rotation holding portion 42 slides. The entire slat 6o descends while sliding on the entry portion 712 of the surface 711. Thus, only the slat 6o to which the slat caps 3 and 4 are attached is in the open posture, and the other slats 6 are not in the open posture and are in the ventilation mode state in which the seat plate 6x is landed. The slats 6 that are not in the open posture in the ventilation mode are engaged with each other between the slats 6 positioned above and below. It will be in an excellent state.

  When the fully closed state of FIG. 7 is changed to the ventilation mode state of FIG. 3, the shutter curtain 1 is moved in the shutter opening direction until the slat 6 o that can be in the open posture is positioned above the angle holding unit 7. The motor 13 is activated. After all the slats 6o move above the angle holding part 7, the operating body 5 is set to the engagement position A, and the motor 13 operates in the unwinding direction. The position of the slat 6o can be determined by the number of pulses of the motor 13, the driving time, or the like.

  As described above, according to the present embodiment, among the components that make the slat 6o open, the angle holding part 7 is disposed on the back side (inside the room) of the slat 6, and therefore the angle holding part 7 is hidden. There is no need for configuration. Moreover, the angle holding | maintenance part 7 is arrange | positioned in the 2nd space 52 of the guide rail part 53, and the expansion to the front surface is also suppressed. Furthermore, since the angle holding part 7 is located on the indoor side of the moving slat 6, it is not easily affected by sand and dust, and deterioration of slidability due to adhesion thereof can be suppressed. Then, the rotation holding part 42 easily enters the rail part 71 of the angle holding part 7 without getting on or caught on the angle holding part 7 by the entry part 712 of the angle holding part 7.

  Further, the angle holding part 7 is separate from the guide rail part 53 and is made of resin, so that it can be easily replaced by wear or by changing the angle. In addition, since the sliding angle holding portion 42 is made of metal, the sliding resistance is reduced and wear can be suppressed.

(Embodiment 2)
As shown in FIGS. 8 to 13, the shutter device of the second embodiment has the same basic configuration as the shutter device of the first embodiment, and has the same functions and effects. Below, it demonstrates focusing on a different structure.

  As shown in FIGS. 8 and 9, in the slat 6o of the second embodiment, the slat cap 3 attached to one end of the slat body 60 has the same configuration, and the configuration of the slat cap 4 attached to the other end is different. In the slat cap 4 having the rotation holding portion 42, relief portions (non-contact portions) 411 and 412 are provided on the outer wall surface of the rotation shaft portion 41. The escape portion 411 is located on the end side of the rotation shaft portion 41 and has a shape in which the outer wall is recessed from the periphery. The escape portion 412 is located in the vicinity of the distal end portion of the rotation holding portion 42 in the middle of the rotation shaft portion 41 in the axial direction, and has an outer wall that is recessed from the periphery.

  The shape of the rib portion 81 of the angle holding portion 8 sandwiched between the rotation shaft portion 41 and the rotation holding portion 42 of the slat cap 4 is different from the angle holding portion 7 of the first embodiment and is formed in a rib shape. The rib portion 81 has a sliding surface (sliding portion) 811 in contact with the rotation holding portion 42 and has an entry portion 812 on the upper side as shown in FIG. The sliding surface (sliding portion) 821 that contacts the outer wall of the rotation shaft portion 41 includes a tapered portion 822. The tapered portion 822 is positioned below the entry portion 812 of the other sliding surface 811 forming the rib portion 81, and is inclined so that the thickness (in the direction of arrow D) increases from the indoor side toward the outdoor side. doing.

  When the shutter device according to the second embodiment is closed in the ventilation mode, the slat 6o (the uppermost slat 6o in the drawing) that has not reached the rotation holding member 8 is rotated and held as shown in FIG. The portion 42 is positioned above the rotation shaft portion 41 and has a substantially vertical closing posture. As shown in FIG. 12, the slat 6o descends and rotates so that the rotation protrusion 32 engages with the operation protrusion 55 of the operating body 5 and the lower side rises with the rotation shafts 31 and 41 as fulcrums. Move. The rotation holding part 42 abuts on the sliding surface 811 of the rib part 81 of the angle holding part 8 and passes through the entry part 812. The rotation shaft portion 41 of the slat cap 4 with the rotation holding portion 42 is in contact with the sliding surface 821. At this time, the slat 6o has a slightly gentler angle than the open posture. Then, when the rotation shaft portion 41 reaches the taper portion 822 as shown in FIG. 13, the slat 6 o is finally in an open posture so as to be pushed out by the taper portion 822.

  As shown in FIG. 8, the slat caps 3, 4 at both ends are formed on rib portions 511 that form the first space 51 of the guide rail portion 53 on the rotating shaft portions 31, 41 when the slat 6 o is in the closed posture. Due to the lowering of the slat 6o, the outer walls of the rotation shaft portions 31, 41 and the rib portion 511 slide, and the slat 6o can be lowered stably. Then, when the slat 6o starts to turn to the open posture, the turning shaft portion 41 on the side where the turning holding portion 42 is located forms the first space 51 by the escape portion 411 as shown in FIG. It does not come into contact with the rib portion 511. However, the sliding surface 821 of the angle holding part 8 and the outer wall of the rotating shaft part 41 slide. When the slat 6o is in the closed posture, the outer wall of the rotation shaft portion 41 does not slide with the sliding surface 821 of the angle holding portion 8 due to the relief portion 412 as shown in FIG. That is, when the rotation shaft portion 41 on the side where the rotation holding portion 42 is in the open posture, it can be stably lowered by sliding on the sliding surface 821 of the angle holding portion 8. The number of sliding parts in the posture can be reduced, and an increase in sliding resistance can be suppressed.

  As described above, according to the present embodiment, the slat cap 4 at the other end of the slat 6o in the open posture is provided with the relief portions 411 and 412 in the rotating shaft portion 41. The sliding part is different when not. Whether in the open posture or not in the open posture, an increase in sliding resistance can be suppressed, and deterioration due to wear can also be suppressed. And since the angle holding part 8 has the taper part 822, the thickness (arrow D direction) above the angle holding part 8 is thin with the approach part 812, and the rotation holding part 42 and the rotation shaft It is further suppressed that the portion 41 rides on or catches on the angle holding portion 8. In addition, when the slat 6o returns from the open posture to the closed posture, the taper portion 822 temporarily stops turning from the open posture, and then closes from a gentler angle than the open posture. To suppress contact between slats and other parts, and the contact sound caused by contact is small.

  Further, since the rib portion 81 of the angle holding portion 8 on which the rotation shaft portion 41 and the rotation holding portion 42 slide is rib-shaped, there are few sliding surfaces. Furthermore, adhesion of sand, dust and the like is suppressed, and as a result, an increase in sliding resistance is suppressed.

(Embodiment 3)
As shown in FIG. 1, the shutter device according to the third embodiment includes a shutter curtain 1 formed by arranging a plurality of slats 6 along the height direction, and a winding body 12 that winds up the shutter curtain 1. , A motor 13 which is a main element of a drive mechanism for rotating the winding body 12, a lateral frame 14 constituting a part of a base for rotatably holding the winding body 12, and on both sides of the shutter curtain 1. And two vertical struts 15 constituting a part of the provided base. A switch (not shown) for controlling the motor 13 is provided. When the motor 13 is driven by the switch and the winding body 12 rotates in one direction around the rotation center line 12x, the shutter curtain 1 moves in the direction of the arrow H1 (shutter opening direction), and the shutter curtain 1 moves to the winding body 12. Is wound up. When the motor 13 reversely moves by the switch and the winding body 12 rotates in the reverse direction, the shutter curtain 1 is unwound from the winding body 12, moves in the direction of arrow H2 (shutter closing direction), and the seat plate 6x lands. To do.

  The slat 6 extends between the two vertical struts 15 along the left-right direction (L direction). The winding body 12 or the motor 13 is provided with a brake portion 20 that disables the rotation of the winding body 12. FIG. 1 is a conceptual diagram only, and the number of slats 6 is not limited to that shown in FIG. As shown in FIG. 1, chain-like linear connecting members 17 are respectively provided on the left and right sides of the shutter curtain 1. The linear connecting member 17 connects the ends of the slats 6 provided adjacent to each other in the height direction (arrow H direction) of the shutter device, and is extendable along the height direction (arrow H direction). Yes.

  As described above, the shutter device includes a shutter usage mode in which the shutter curtain 1 is opened and closed in the height direction, a blind usage state in which openings can be formed between the slats 6 (see FIG. 2), and a plurality of slats 6. The upper predetermined number (for example, three) of slats 6 can be used in a ventilation mode state (see FIG. 3) in which the slats 6 are in the open posture and the other slats 6 are not in the open posture. Since the present invention relates to the ventilation mode state, the ventilation mode state will be mainly described.

  As shown in FIG. 1, the shutter curtain 1 includes a plurality of slats 6 arranged in parallel in the opening / closing direction (arrow H direction) of the shutter curtain 1. As shown in FIG. 14, the slat 6 includes a metal or resin slat main body 60 and resin slat caps 3 and 4 fixed to both ends of the slat main body 60 in the longitudinal direction. The slat 6 shown in FIG. 14 is a slat 6o (o: open) set so as to be in an open posture in the ventilation mode. The slat caps 3 and 4 are attached to the end portions of the slat main body 60, and are axially formed outward from the attached portions 33 and 43 (in the extending direction of the slat 6 (arrow L direction)). Projecting pivot shafts 31 and 41 are provided. As shown in FIGS. 14 and 15, the slat caps 3 and 4 of the slat 6o are attached with different shapes at both ends. The slat cap 3 at one end of the slat 6o has a rotating protrusion 32 protruding from the outer wall surface of the rotating shaft 31. The slat cap 4 at the other end of the slat 6o includes a shaft-like rotation holding portion 42 that protrudes in the extending direction of the slat 6o substantially in parallel with the rotation shaft portion 41.

  As shown in FIG. 14, the rotation shaft portion 41 includes a mounting pin 413 and a first rotating body 414. The attachment pin 413 passes through the inside of the first rotating body 414 in the extending direction of the slat 6o, and is fitted into the adherend portion 43. The first rotating body 414 is rotatable with respect to the mounting pin 413. The rotation holding portion 42 is positioned above the rotation shaft portion 41 in a closed posture in which the slat 6o is not rotated and there is no gap between the slats 6o. The rotation holding unit 42 includes a metal pin 421 that is insert-molded in the slat cap 4 and a second rotating body 422 that is rotatably attached to the metal pin 421. The rotating bodies 414 and 422 are not limited to the configuration in which the rotating bodies 414 and 422 are rotatably attached to the pins 413 and 421 serving as the respective rotation centers. A configuration capable of rotating at a slight angle or a configuration rotating at a necessary angle may be employed.

  As shown in FIGS. 14 and 15, both vertical struts 15 are provided with guide rail portions 53 that form a first space 51 and a second space 52, respectively. The first space 51, the second space 52, and the guide rail portion 53 are extended along the height direction (the direction indicated by the arrow H in FIG. 1). In the first space 51, the end portions of the rotation shaft portions 31 and 41 of the slat caps 3 and 4 move in the height direction. The second space 52 is located closer to the room (back side) than the first space 51, and an angle holding portion 8 described later is disposed in the second space 52 of one guide rail portion 53. Further, a hard resin or metal working body 5 is attached to the upper side of the outdoor front surface 54 of the other guide rail 53 so as to be movable in the left-right direction (arrow E1, E2 direction). The operating body 5 is slidably disposed on the front surface 54 of the guide rail portion 53 so as to be movable between the engagement position A and the retracted position B in the directions of arrows E1 and E2. Note that the movement of the operating body 5 is electrically performed because it is automatically performed by operating a switch, and may be realized by a known technique as described in Patent Document 1. There is no need for a special configuration.

The angle holding portion 8 is a member accommodated in the second space 52 as shown in FIGS. 14 and 15, and is necessary from above the second space 52 where the slat 6o can be in the open posture as shown in FIG. The length is extended downward. The angle holding portion 8 includes a rib portion 81 that guides the rotation holding portion 42 of the slat cap 4 when the slat 6o is in the open posture. The rib portion 81 includes a sliding surface (sliding portion) 811 that contacts the second rotating body 422 of the rotation holding portion 42 and a sliding surface (sliding) that contacts the first rotating body 414 of the rotating shaft portion 41. Part) 821 and a rib. The sliding surfaces 811 and 821 are formed substantially straight in the height direction (arrow H direction) so that the rotation holding portion 42 slides and descends. The sliding surface 811 includes an entry portion 812 inclined at the upper end and the lower end. The entry portion 812 is formed so that the thickness (arrow D direction) becomes narrower toward the end portion so that the rotation holding portion 42 descending from above can easily enter the rib portion 81. Further, the sliding surface 821 includes a tapered portion 822. The tapered portion 822 is located below the proceeding join the club 812 on the back side of the sliding surface 811, from the indoor side to the outdoor side thickness direction (arrow D direction) is inclined to increase. Since the entrance portion 812 and the taper portion 822 are at the upper and lower ends of the angle holding portion 8, they can be installed in either the second space 52 of the guide rail portion 53 on the left and right sides, and the slat caps 3 and 4 having different shapes on the left and right sides. It is also possible to replace the functions.

  In the slat 6 o in the open posture, the rotation holding portion 42 is guided by the entry portion 812 of the rib portion 81 and slides on the sliding surface 811. The rotation shaft portion 41 slides on the sliding surface 821. After the rotation holding portion 42 passes through the entry portion 812, the slat 6o has a slightly gentler angle than the open posture until the rotation shaft portion 41 passes through the taper portion 822 of the sliding surface 821. When the rotation shaft part 41 finally passes through the taper part 822, the rotation shaft part 41 is pushed out by the taper part 822, and the slat 6o becomes the open posture. After the opening posture, the rotation shaft portion 41 and the rotation holding portion 42 slide on the sliding surfaces 821 and 811 of the angle holding portion 8 and descend almost straight. For ease of explanation, in FIG. 16, the rotation protrusion 32 and the rotation holding portion 42 are shown as the same slat cap 3 (4).

  In the third embodiment, as shown in FIGS. 14 and 15, the operating body 5 is disposed on the left guide rail portion 53 when the shutter device is viewed from the outdoor side. The angle holding unit 7 is arranged in the two space 52. The slat cap 3 is attached to one end of a slat 6o that can be in an open posture on the side where the operating body 5 is disposed, and the slat cap 4 is attached to the other end. The operating body 5 has an operating protrusion 55 that protrudes toward the rotation shaft portion 31 of the slat cap 3. When the operating body 5 is in the engagement position A and the slat 6o descends, the operating protrusion 55 engages (contacts) the rotating protrusion 32 of the rotating shaft 31 of the slat cap 3, and the operating body When 5 is at the retracted position B and the slat 6o is lowered, the rotating protrusion 32 is not engaged (contacted). When the rotation protrusion 32 is engaged with the operation protrusion 55, the slat 6o rotates (in the direction of arrow D) so that the lower side rises with the rotation shaft 31 and the rotation shaft 41 located at the left and right ends as fulcrums. To do. When the slat 6o rotates, the rotation holding portion 42 also rotates and moves from the upper side of the rotation shaft portion 41 to the indoor side.

  Here, the slat 6 set so as not to be in the open posture in the ventilation mode state will be described. The slat 6 includes a slat body 60 made of metal or resin, the same as the slat 6o that can be in an open posture. And as a resin-made slat cap 62 attached to the both ends of the longitudinal direction of the slat main body 60, the structure without the rotation protrusion part 32 and the rotation holding | maintenance part 42 is attached (refer FIG. 6). The slat cap 62 includes an attachment portion 63 attached to an end portion of the slat body 60, and a rotating shaft portion 64 that protrudes in an axial direction from the attachment portion 63 in the outward direction (extending direction of the slat 6). Yes. Or it can also be set as the slat cap 4 in which both ends are equipped with the rotation holding | maintenance part 42. FIG. Since the slat cap 4 provided with the rotation holding portion 42 does not include the rotation protrusion 32 that engages with the operation protrusion 5 of the operation body 5, even if the operation body 5 is in the engagement position A, the slat cap 4 does not take the open posture. .

  First, a case where the shutter curtain 1 is closed in a fully closed state will be described. The fully closed state of the shutter curtain 1 is a state in which the seat plate 6x is landed and there is no gap between the slats 6 (6o) as shown in FIG. In this case, the operating body 5 is set to the retracted position B (see FIG. 15). In this state, when the motor 13 operates in the unwinding direction and the winding body 12 rotates in the unwinding direction, the shutter curtain 1 is unwound from the winding body 12, and the shutter closing direction (arrow H2 direction, downward direction). Move to. The slat 6o that can be in the open posture moves downward without rotating because the rotating protrusion 32 of the slat cap 3 does not engage with the operating protrusion 55 of the operating body 5.

  Next, a case where the shutter curtain 1 is closed in the ventilation mode state will be described. The ventilation mode state of the shutter curtain 1 is a state where the seat plate 6x is landed and the upper three sheets are rotated to the open posture as shown in FIG. In this case, the operating body 5 is set to the engagement position A. In this state, when the motor 13 operates in the unwinding direction and the winding body 12 rotates in the unwinding direction, the shutter curtain 1 is unwound from the winding body 12 and moves in the arrow H2 direction (closed direction, downward). To do. At this time, the rotation protrusion 32 of the rotation shaft 31 of one slat cap 3 of the slat 6 o that can be in the open posture engages with the operation protrusion 55 of the operating body 5. The slat 6o rotates so that the lower side rises with the rotation shaft portions 31 and 41 as fulcrums, the rotation holding portion 42 enters the rib portion 81 of the angle holding portion 8, and the rotation holding portion 42 slides. The entire slat 6o descends while sliding on the entry portion 812 of the surface 811. Thus, in the shutter device, only the slat 6o, in which the slat cap 3 is attached to one of the operating bodies 5 and the slat cap 4 is attached to the other, is in the open posture, and the other slats 6 are not in the open posture. It becomes the ventilation mode state that has landed. The slats 6 that are not in the open posture in the ventilation mode are engaged with each other between the slats 6 positioned above and below. It will be in an excellent state.

  When the fully closed state in FIG. 7 is changed to the ventilation mode state in FIG. 3, the shutter curtain 1 is moved in the shutter opening direction until the slat 6 o that can be in the open posture is positioned above the angle holding unit 8. The motor 13 is activated. After all the slats 6o move above the angle holding portion 8, the operating body 5 is set to the engagement position A, and the motor 13 operates in the unwinding direction. The position of the slat 6o can be determined by the number of pulses of the motor 13, the driving time, or the like.

  As described above, according to the present embodiment, among the components that make the slat 6o open, the angle holding unit 8 is arranged on the back side (inside the room) of the slat 6, and thus the angle holding unit 8 is hidden. There is no need for configuration. Moreover, the angle holding | maintenance part 8 is arrange | positioned in the 2nd space 52 of the guide rail part 53, and the expansion to the front surface is also suppressed. Furthermore, since the angle holding unit 8 is located on the indoor side of the moving slat 6, it is hardly affected by sand and dust, and deterioration of slidability due to the adhesion thereof can be suppressed. Then, the rotation holding part 42 easily enters the rib part 81 of the angle holding part 8 without getting on or caught on the angle holding part 8 by the entry part 812 of the angle holding part 8. And since the angle holding part 8 has the taper part 822, when the slat 6o returns from the open position to the closed position, the rotation from the open position once stops at the taper part 822, and it is gentler than the open position. Since it becomes a closed posture from a certain angle, it is suppressed from closing by a sudden rotation, the contact between slats and other parts is suppressed, and the hitting sound accompanying the contact is small. Further, the angle holding part 7 is separate from the guide rail part 53 and is made of resin, so that it can be easily replaced by wear or by changing the angle.

Further, since the first rotating body 414 of the rotation shaft portion 41 can rotate with respect to the mounting pin 413 fitted in the adherend portion 43, the first space of the angle holding portion 8 and the guide rail portion 53 is partitioned. The friction with the rib parts 511 and 512 to be performed can be suppressed. Usually, slats 6o, when rotating holder 4 2 does not abut on the angle holding portion 8, and is biased in the closed position so there is no gap in contact with the upper and lower slats 6 equivalents. Therefore, as shown in FIG. 16, when the slats 6o is lowered while becoming the open position, sliding resistance between the sliding surface 821 of the first rotor 41 4 and the angle holding portion 8 of the rotating shaft portion 41 The rotational force T is generated in the direction in which the lower end of the slat 6o is about to be lowered by R1. Here, when the rotation shaft 41 does not have the first rotary member 41 4 rotatable, the rotational force T applied to the rotation shaft 41 is transmitted to the rotation holding portion 42 via a deposition unit 43, A rotational force T is applied to the sliding resistance R2 between the rotation holding portion 42 and the sliding surface 811. When the sliding resistance of the rotation shaft portion 41 and the rotation holding portion 42 is high, the slat 6o has high sliding resistance in the direction in which the angle holding portion 8 is sandwiched between the rotation shaft portion 41 and the rotation holding portion 42. Therefore, the slat 6o bites into the angle holding part 8 and is difficult to descend. However, in the shutter device of the present embodiment, the first rotating body 414 that is separated from the adherend portion 43 and can rotate is brought into contact with the sliding surface 821, so the sliding between the first rotating body 414 and the sliding surface 821. The rotational force T due to the resistance R1 is not transmitted to the adherend portion 43, and the rotational force T is not applied to the sliding resistance R2 of the rotation holding portion 42. Further, when the first rotating body 414 rotates, the sliding resistance R1 with the sliding surface 821 and the sliding resistance with the rib portions 511 and 512 are suppressed. As a result, the slat 6o does not easily bite into the angle holding portion 8, and can be lowered smoothly.

  Further, since the rotation holding unit 42 can rotate the second rotating body 422 that contacts the sliding surface 811 of the angle holding unit 8, the rotation holding unit 42 is caused by friction with the sliding surface 811 when the slat is in the open posture. Abnormal noise and vibration can be suppressed.

(Embodiment 4)
The shutter device according to the fourth embodiment includes the basic configuration and operational effects of the shutter device according to the third embodiment. In the shutter device of the fourth embodiment, the rotation holding part 42 of the slat cap 4 does not have the second rotating body 422, and has only a metal pin 421 that is insert-molded on the adherend part 43. Since the rotatable first rotating body 414 separated from the adherend portion 43 abuts on the sliding surface 821 of the angle holding portion 8, the rotational force T due to the sliding resistance R <b> 1 generated in the rotating shaft portion 41 rotates. The rotation force T is not applied to the sliding resistance R <b> 2 of the rotation holding unit 42 without being transmitted to the holding unit 42.

(Embodiment 5)
The shutter device according to the fifth embodiment includes the basic configuration and operational effects of the shutter device according to the third embodiment. The shutter device according to the fifth embodiment does not include the first rotating body 414, and the rotation shaft portion 41 is integral with the adherend portion 43. Therefore, the rotational force T due to the sliding resistance R <b> 1 between the rotation shaft portion 41 and the sliding surface 821 is transmitted to the rotation holding portion 42. However, since the rotation holding part 42 includes the second rotating body 422 and the sliding resistance R2 is suppressed, compared to the configuration in which neither the first rotating body 414 nor the second rotating body 422 is included, The slat 6o is not easily attached to the angle holding part 8, and is easy to descend.

(Other embodiments)
The preferred embodiment of the present invention has been described above, but the present invention is not limited to the above embodiment. For example, the slat caps 3 and 4 at both ends having different shapes of the slat 6o in the open posture may be replaced with each other. Further, the slat caps having both configurations can be arranged only at one end or at both ends without different shapes at both ends.

  And it is also possible to attach the slat caps 3 and 4 as the slats 6o that can be in the open posture and control the timing of moving the operating body 5 to the engagement position A.

  Further, the rotation shaft portion 41 according to the fourth and fifth embodiments has a configuration in which the entire extending direction of the slat 6 is the second rotating body 422, but only the portion that contacts the guide rail portion 53 and the angle holding portion 8. May be configured to be rotatable.

  Further, the angle holding unit 8 according to the fourth and fifth embodiments can be the angle holding unit 7 used in the shutter device of the first embodiment.

  The present invention can be used for a shutter device that opens and closes an opening of a structure such as a building, a vehicle, and a ship.

DESCRIPTION OF SYMBOLS 1: Shutter curtain, 12: Winding body, 13: Motor, 14: Horizontal frame (base part), 15: Vertical support | pillar (base part), 17: Linear connection member, 2 :, 20: Brake part, 3, 4, 62: Slat cap, 31, 41, 64: Rotating shaft portion, 32: Rotating projection portion, 33, 43, 63: Adhering portion, 42: Rotating holding portion, 411, 412: Escape portion, 413: Attachment Pin: 414: first rotating body, 421: metal pin, 422: second rotating body, 5: operating body, 51: first space, 511, 512: rib portion, 52: second space, 53: guide rail portion 54: front surface, 55: operating projection, 6, 6o: slat, 60: slat body, 6x: seat plate, 7, 8: angle holding portion, 71: rail portion, 711, 811 and 821: sliding surface (sliding Moving part), 712, 812: entry part, 81: rib part, 822: taper Part, 93: opening.

Claims (7)

A retractable shutter curtain in which a plurality of slats are juxtaposed along the opening and closing direction;
A winder that winds up the shutter curtain with rotation in one direction and unwinds the shutter curtain with rotation in the opposite direction;
A drive mechanism for rotating the winding body in the one direction and the opposite direction;
An engagement position that engages at least a part of the moving slat when the shutter curtain moves in the closing direction, rotates the slat to an open position, and forms an opening between the adjacent slats; An operating body provided to be switchable to a retracted position that does not engage with the moving slat and does not rotate the slat to an open posture;
A rotation shaft portion serving as a rotation center of the slat;
A rotation holding portion that is provided at an end of the slat and is located on the back side of the slat with respect to a rotation fulcrum and holds the release posture when the slat rotates in the release posture;
A guide rail that is provided on the back side of the slat and that engages with the rotation holding part to hold the angle of the opening posture of the slat and guides the end of the slat of the shutter curtain. And
Equipped with,
The angle holding portion includes a rib-shaped rib portion sandwiched between the rotation shaft portion and the rotation holding portion,
The rib portion includes a sliding portion that contacts the rotation holding portion, and a sliding portion that contacts the rotation shaft portion,
The sliding part with which the rotation holding part abuts is provided with an entry part inclined at the upper end,
The entry part is formed so that the thickness becomes narrower toward the end part,
The sliding portion that contacts the rotating shaft portion includes a taper portion,
The taper portion is a shutter device that is inclined so that the thickness increases from the indoor side toward the outdoor side .   The shutter device according to claim 1, wherein the tapered portion is positioned below the entry portion. 3. The shutter device according to claim 1, wherein an end portion of the slat includes a non-contact portion that does not come into contact with the guide rail portion other than the angle holding portion when the end portion of the slat is rotated to the open posture. The shutter device according to any one of claims 1 to 3, wherein the angle holding portion has a shape in which an angle of rotation of the slat is increased after the engagement with the rotation holding portion is started. The angle holding part is made of a resin separate from the guide rail part,
The shutter device according to claim 1, wherein the rotation holding unit is made of metal.   The end portion of the slat includes a first rotating body having a portion that abuts on the guide rail portion and capable of rotating relative to the other portion of the end portion of the slat. Shutter device.   7. The rotation holding unit according to claim 1, wherein a portion that engages with the angle holding unit includes a second rotating body that can rotate relative to other portions of the rotation holding unit. The shutter device described.

Images